From 6e86facf6ad3047726a893600fde2e40fbf57e13 Mon Sep 17 00:00:00 2001 From: Jim Johnson Date: Tue, 4 May 2021 14:48:44 -0500 Subject: [PATCH 1/6] metamorpheus initial commit Add galaxy tools for the MetaMorpheus application. MetaMorpheus is a bottom-up proteomics database search software with integrated post-translational modification (PTM) discovery capability. --- tools/metamorpheus/macros.xml | 712 + .../metamorpheus/metamorpheus_calibration.xml | 65 + tools/metamorpheus/metamorpheus_g_ptm_d.xml | 64 + tools/metamorpheus/metamorpheus_search.xml | 72 + .../static/images/MetaMorpheusWorkflow.png | Bin 0 -> 744302 bytes .../SmallCalibratible_Yeast-calib.mzML | 8122 ++ .../SmallCalibratible_Yeast-calib.toml | 2 + .../test-data/SmallCalibratible_Yeast.mzML | 8555 ++ tools/metamorpheus/test-data/SmallYeast.fasta | 1187 + .../test-data/SmallYeastGPTMD.xml | 1911 + .../test-data/SmallYeast_uniprot.xml | 84141 ++++++++++++++++ 11 files changed, 104831 insertions(+) create mode 100644 tools/metamorpheus/macros.xml create mode 100644 tools/metamorpheus/metamorpheus_calibration.xml create mode 100644 tools/metamorpheus/metamorpheus_g_ptm_d.xml create mode 100644 tools/metamorpheus/metamorpheus_search.xml create mode 100644 tools/metamorpheus/static/images/MetaMorpheusWorkflow.png create mode 100644 tools/metamorpheus/test-data/SmallCalibratible_Yeast-calib.mzML create mode 100644 tools/metamorpheus/test-data/SmallCalibratible_Yeast-calib.toml create mode 100644 tools/metamorpheus/test-data/SmallCalibratible_Yeast.mzML create mode 100644 tools/metamorpheus/test-data/SmallYeast.fasta create mode 100644 tools/metamorpheus/test-data/SmallYeastGPTMD.xml create mode 100644 tools/metamorpheus/test-data/SmallYeast_uniprot.xml diff --git a/tools/metamorpheus/macros.xml b/tools/metamorpheus/macros.xml new file mode 100644 index 000000000..cd2059e74 --- /dev/null +++ b/tools/metamorpheus/macros.xml @@ -0,0 +1,712 @@ + + 0.0.316 + 0 + + + metamorpheus + + + + + +[CommonParameters] +# MaxThreadsToUsePerFile = 11 +ListOfModsFixed = "Common Fixed\tCarbamidomethyl on C\t\tCommon Fixed\tCarbamidomethyl on U" +ListOfModsVariable = "Common Variable\tOxidation on M" +DoPrecursorDeconvolution = true # Calibration false +UseProvidedPrecursorInfo = true +DeconvolutionIntensityRatio = 3.0 +DeconvolutionMaxAssumedChargeState = 12 +DeconvolutionMassTolerance = "±4.0000 PPM" +TotalPartitions = 1 +ProductMassTolerance = "±20.0000 PPM" # Calibration 25.0000 +PrecursorMassTolerance = "±5.0000 PPM" # Calibration 15.0000 +AddCompIons = false +ScoreCutoff = 5.0 +ReportAllAmbiguity = true +NumberOfPeaksToKeepPerWindow = 200 +MinimumAllowedIntensityRatioToBasePeak = 0.01 +NormalizePeaksAccrossAllWindows = false +TrimMs1Peaks = false +TrimMsMsPeaks = true # Calibration false +UseDeltaScore = false +QValueOutputFilter = 1.0 +CustomIons = [] +AssumeOrphanPeaksAreZ1Fragments = true +MaxHeterozygousVariants = 4 +MinVariantDepth = 1 +DissociationType = "HCD" +SeparationType = "HPLC" +MS2ChildScanDissociationType = "Unknown" +MS3ChildScanDissociationType = "Unknown" + + + +[CommonParameters.DigestionParams] +MaxMissedCleavages = 2 +InitiatorMethionineBehavior = "Variable" +MinPeptideLength = 7 +MaxPeptideLength = 2147483647 +MaxModificationIsoforms = 1024 +MaxModsForPeptide = 2 +Protease = "trypsin" +SearchModeType = "Full" +FragmentationTerminus = "Both" +SpecificProtease = "trypsin" +GeneratehUnlabeledProteinsForSilac = true + + + + + + + + + + + + + + + + + + + + + +#import re +#def identifier_or_name($input1) + #if hasattr($input1, 'element_identifier') + #return $input1.element_identifier + #else + #return $input1.name + #end if +#end def +#def clean($name1) + #set $name_clean = $re.sub('[^\w\-_]', '_', $re.sub('(?i)[.](fa|fasta|xml|imzml|mzml|raw|mgf)$','', $re.sub('.*/','', $name1.rstrip('.gz')))) + #return $name_clean +#end def +#def ln_name($ds) + #set $ext = '' + #if $ds.is_of_type('mzml') or $ds.is_of_type('imzml') + #set $ext = ".mzML" + #else if $ds.is_of_type('thermo.raw') + #set $ext = ".raw" + #else if $ds.is_of_type('toml') + #set $ext = ".toml" + #else if $ds.is_of_type('uniprotxml') + #set $ext = ".xml" + #else if $ds.is_of_type('fasta') + #set $ext = ".fasta" + #end if + #set $name = "%s%s" % ($clean($identifier_or_name($ds)),$ext) + #return $name +#end def + + + + + + + + + + + + + + + + + + + + + + + + + + +TaskType = "Gptmd" + +[GptmdParameters] +ListOfModsGptmd = "Common Biological\tAcetylation on K\t\tCommon Biological\tAcetylation on X\t\tCommon Biological\tADP-ribosylation on S\t\tCommon Biological\tButyrylation on K\t\tCommon Biological\tCarboxylation on D\t\tCommon Biological\tCarboxylation on E\t\tCommon Biological\tCarboxylation on K\t\tCommon Biological\tCitrullination on R\t\tCommon Biological\tCrotonylation on K\t\tCommon Biological\tDimethylation on K\t\tCommon Biological\tDimethylation on R\t\tCommon Biological\tFormylation on K\t\tCommon Biological\tGlu to PyroGlu on Q\t\tCommon Biological\tGlutarylation on K\t\tCommon Biological\tHexNAc on Nxs\t\tCommon Biological\tHexNAc on Nxt\t\tCommon Biological\tHexNAc on S\t\tCommon Biological\tHexNAc on T\t\tCommon Biological\tHydroxybutyrylation on K\t\tCommon Biological\tHydroxylation on K\t\tCommon Biological\tHydroxylation on N\t\tCommon Biological\tHydroxylation on P\t\tCommon Biological\tMalonylation on K\t\tCommon Biological\tMethylation on K\t\tCommon Biological\tMethylation on R\t\tCommon Biological\tNitrosylation on C\t\tCommon Biological\tNitrosylation on Y\t\tCommon Biological\tPhosphorylation on S\t\tCommon Biological\tPhosphorylation on T\t\tCommon Biological\tPhosphorylation on Y\t\tCommon Biological\tPyridoxal phosphate on K\t\tCommon Biological\tSuccinylation on K\t\tCommon Biological\tSulfonation on Y\t\tCommon Biological\tTrimethylation on K\t\tCommon Artifact\tAmmonia loss on C\t\tCommon Artifact\tAmmonia loss on N\t\tCommon Artifact\tCarbamyl on C\t\tCommon Artifact\tCarbamyl on K\t\tCommon Artifact\tCarbamyl on M\t\tCommon Artifact\tCarbamyl on R\t\tCommon Artifact\tCarbamyl on X\t\tCommon Artifact\tDeamidation on N\t\tCommon Artifact\tDeamidation on Q\t\tCommon Artifact\tWater Loss on E\t\tMetal\tCalcium on D\t\tMetal\tCalcium on E\t\tMetal\tCu[I] on D\t\tMetal\tCu[I] on E\t\tMetal\tFe[II] on D\t\tMetal\tFe[II] on E\t\tMetal\tFe[III] on D\t\tMetal\tFe[III] on E\t\tMetal\tMagnesium on D\t\tMetal\tMagnesium on E\t\tMetal\tPotassium on D\t\tMetal\tPotassium on E\t\tMetal\tSodium on D\t\tMetal\tSodium on E\t\tMetal\tZinc on D\t\tMetal\tZinc on E" + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +[CommonParameters] +TaskDescriptor = "CalibrateTask" +MaxThreadsToUsePerFile = 11 +#if $common.set_common == 'yes' +DoPrecursorDeconvolution = $common.DoPrecursorDeconvolution +UseProvidedPrecursorInfo = $common.UseProvidedPrecursorInfo +DeconvolutionIntensityRatio = $common.DeconvolutionIntensityRatio +DeconvolutionMaxAssumedChargeState = $common.DeconvolutionMaxAssumedChargeState +DeconvolutionMassTolerance = "±${common.DeconvolutionMassTolerance} PPM" +TotalPartitions = $common.TotalPartitions +ProductMassTolerance = "±${common.ProductMassTolerance} PPM" +PrecursorMassTolerance = "±${common.PrecursorMassTolerance} PPM" +AddCompIons = $common.AddCompIons +ScoreCutoff = $common.ScoreCutoff +ReportAllAmbiguity = $common.ReportAllAmbiguity +NumberOfPeaksToKeepPerWindow = $common.NumberOfPeaksToKeepPerWindow +MinimumAllowedIntensityRatioToBasePeak = $common.MinimumAllowedIntensityRatioToBasePeak +NormalizePeaksAccrossAllWindows = $common.NormalizePeaksAccrossAllWindows +TrimMs1Peaks = $common.TrimMs1Peaks +TrimMsMsPeaks = $common.TrimMsMsPeaks +UseDeltaScore = $common.UseDeltaScore +QValueOutputFilter = $common.QValueOutputFilter +## CustomIons = $common.CustomIons +AssumeOrphanPeaksAreZ1Fragments = $common.AssumeOrphanPeaksAreZ1Fragments +MaxHeterozygousVariants = $common.MaxHeterozygousVariants +MinVariantDepth = $common.MinVariantDepth +DissociationType = $common.DissociationType +SeparationType = $common.SeparationType +MS2ChildScanDissociationType = $common.MS2ChildScanDissociationType +MS3ChildScanDissociationType = $common.MS3ChildScanDissociationType +#else +DoPrecursorDeconvolution = true +UseProvidedPrecursorInfo = true +DeconvolutionIntensityRatio = 3.0 +DeconvolutionMaxAssumedChargeState = 12 +DeconvolutionMassTolerance = "±4.0000 PPM" +TotalPartitions = 1 +ProductMassTolerance = "±25.0000 PPM" +PrecursorMassTolerance = "±15.0000 PPM" +AddCompIons = false +ScoreCutoff = 5.0 +ReportAllAmbiguity = true +NumberOfPeaksToKeepPerWindow = 200 +MinimumAllowedIntensityRatioToBasePeak = 0.01 +NormalizePeaksAccrossAllWindows = false +TrimMs1Peaks = false +TrimMsMsPeaks = true +UseDeltaScore = false +QValueOutputFilter = 1.0 +CustomIons = [] +AssumeOrphanPeaksAreZ1Fragments = true +MaxHeterozygousVariants = 4 +MinVariantDepth = 1 +DissociationType = "HCD" +SeparationType = "HPLC" +MS2ChildScanDissociationType = "Unknown" +MS3ChildScanDissociationType = "Unknown" +#end if + + + + +ListOfModsFixed = "Common Fixed\tCarbamidomethyl on C\t\tCommon Fixed\tCarbamidomethyl on U" +ListOfModsVariable = "Common Variable\tOxidation on M" + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +[CommonParameters.DigestionParams] +#if $digest.set_digest == 'yes' +MaxMissedCleavages = $digest.MaxMissedCleavages +InitiatorMethionineBehavior = "$digest.InitiatorMethionineBehavior" +MinPeptideLength = $digest.MinPeptideLength +MaxPeptideLength = $digest.MaxPeptideLength +MaxModificationIsoforms = $digest.MaxModificationIsoforms +MaxModsForPeptide = $digest.MaxModsForPeptide +Protease = "$digest.Protease" +SearchModeType = "$digest.SearchModeType" +FragmentationTerminus = "$digest.FragmentationTerminus" +SpecificProtease = "$digest.SpecificProtease" +GeneratehUnlabeledProteinsForSilac = $digest.GeneratehUnlabeledProteinsForSilac +#else +MaxMissedCleavages = 2 +InitiatorMethionineBehavior = "Variable" +MinPeptideLength = 7 +MaxPeptideLength = 2147483647 +MaxModificationIsoforms = 1024 +MaxModsForPeptide = 2 +Protease = "trypsin" +SearchModeType = "Full" +FragmentationTerminus = "Both" +SpecificProtease = "trypsin" +GeneratehUnlabeledProteinsForSilac = false +#end if + + + + + + + + + + + + + + + + + search_outputs and 'WriteMzId' in search_outputs + + + + search_outputs and 'WritePepXml' in search_outputs + + + + + + + + + 10.1021/acs.jproteome.7b00873 + + + + + diff --git a/tools/metamorpheus/metamorpheus_calibration.xml b/tools/metamorpheus/metamorpheus_calibration.xml new file mode 100644 index 000000000..719a487c4 --- /dev/null +++ b/tools/metamorpheus/metamorpheus_calibration.xml @@ -0,0 +1,65 @@ + + identify peptides by their calibrate the m/z values of all peaks in the spectra + + macros.xml + + + + + + +@CALIBRATE_CONFIG@ +@COMMON_CONFIG@ + + #slurp + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + diff --git a/tools/metamorpheus/metamorpheus_g_ptm_d.xml b/tools/metamorpheus/metamorpheus_g_ptm_d.xml new file mode 100644 index 000000000..fbfca6cce --- /dev/null +++ b/tools/metamorpheus/metamorpheus_g_ptm_d.xml @@ -0,0 +1,64 @@ + + Post-translational modification (PTM) discovery + + macros.xml + + + + + + +@GPTMD_CONFIG@ +@COMMON_CONFIG@ + + #slurp + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + diff --git a/tools/metamorpheus/metamorpheus_search.xml b/tools/metamorpheus/metamorpheus_search.xml new file mode 100644 index 000000000..efa6107ec --- /dev/null +++ b/tools/metamorpheus/metamorpheus_search.xml @@ -0,0 +1,72 @@ + + identify peptides by their fragmentation spectra + + macros.xml + + + + + + +@SEARCH_CONFIG@ +@COMMON_CONFIG@ + + #slurp + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + diff --git a/tools/metamorpheus/static/images/MetaMorpheusWorkflow.png b/tools/metamorpheus/static/images/MetaMorpheusWorkflow.png new file 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VGMGQQAAAOAl9PlAAAAA4J5uREEAAADgzTrvQAAAACB/mQJBAAAA4Hu8JUEAAABgP3cPQQAAACDDxfJAAAAAwEy790AAAACA4zEAQQAAAOB7tDJBAAAA4EXF8EAAAACAJpAOQQAAAOCjbQZBAAAAIHZz6EAAAABAtu0eQQAAAGChGTZBAAAAwLC6G0EAAACAFw7yQAAAAABswitBAAAAQAsL7UAAAAAA6yrxQAAAACBSRO9AAAAAwEf+AUEAAABgQMECQQAAAEAIFgFBAAAAYD/c9kAAAAAAzNgZQQAAAGDa5TxBAAAAAKZdKUEAAACAqLf4QAAAAIDkFCZBAAAAQHfeQEEAAABgb24WQQAAAOAiWQdBAAAAQG/ACEEAAADgDxMqQQAAAEBVqRlBAAAAQFa8QUEAAAAgW2zvQAAAAIB6jgZBAAAAQHtcH0EAAAAgpy0tQQAAAACNpOtAAAAAIHGW60AAAACAfgXwQAAAAIDP3QVBAAAAgKYCDEEAAAAg/G/7QAAAAABcVwNBAAAAAJ4l+0AAAADgTsr0QAAAAEApBf1AAAAA4EJgEEEAAADgtUgTQQAAACDg+fVAAAAAQD+I/kAAAABgSlQDQQAAACBO1fJAAAAAAFKd90AAAAAA80EAQQAAAOA2YCdBAAAA4NqjSkEAAACgWG30QAAAAIBoQClBAAAA4K3jAEEAAADgejX/QAAAAMB1sSxBAAAAwEyMGUEAAADAKMfzQAAAAGBzr/tAAAAAYG5AB0EAAACgjncDQQAAAKAO5QNBAAAAwNiYI0EAAABgr5XsQAAAAEBGK+9AAAAA4Juk/EAAAAAgyLwhQQAAAICTlAVBAAAAgIJGCUEAAADgXA4AQQAAAAA+LAVBAAAAgCR4BUEAAAAATAgQQQAAAAB99fJAAAAAAGBUEEEAAACgMlT7QAAAAOAhYfhAAAAA4PMu8kAAAAAAyfv1QAAAAIDufOxAAAAAoO0r90AAAACghfQDQQAAAGBYjfhAAAAAAPX2NUEAAABAFWTzQAAAAOCUnulAAAAA4HaeEkEAAAAAQMYRQQAAAMDMWBpBAAAAYIfH6UAAAACggVAnQQAAACBOWhlBAAAAIEIuF0EAAADgVAEKQQAAAOBviWRBAAAAgKid8UAAAACAqaYwQQAAAOB1jkFBAAAAYHdU90AAAAAA4RMKQQAAAKBD+hhBAAAAIKqb8kAAAAAgFpjsQAAAAOBaehVBAAAA4AvIGUEAAADAiAT6QAAAAIBjkulAAAAAwMeNAEEAAAAg/efsQAAAAOAn4/hAAAAAII4880AAAADgzeTqQAAAAIBPEfBAAAAAwIpi9UAAAABgDAbyQAAAAKAyDehAAAAA4JlE+EAAAADAZDzyQAAAAGCT4e1AAAAAgJt3+EAAAABAVa78QAAAAABnTwdBAAAAYCVAFkEAAAAA9BT2QAAAAIAv/QFBAAAAQO2D/EAAAADAHsoTQQAAACAI7w9BAAAAABG5EkEAAADgPEwXQQAAAEB2G/RAAAAAICSfAkEAAABgBmkGQQAAAIB2a/BAAAAAIH6fFUEAAADAxQv/QAAAACB82gxBAAAAgN4IAUEAAADAyVTyQAAAAAAwm/JAAAAAQEv7N0EAAAAAdXj6QAAAACAKnvhAAAAAgBaNHkEAAACgTGD0QAAAAIC6YO5AAAAA4BjI+EAAAAAArtnzQAAAAEAW+wFBAAAAYDVc/EAAAACA5sYKQQAAAABbuiZBAAAAgFkiJ0EAAAAAiG0qQQAAAIAt5vxAAAAA4JubFEEAAABg2JMEQQAAAEBaf+5AAAAAoA52J0EAAACgZAH4QAAAAMCCmgZBAAAAQNcyAkEAAAAggmlBQQAAACAvgDZBAAAAAEIVQkEAAAAg3TjyQAAAAOA05ehAAAAAIC0WGkEAAABAJZwTQQAAAGB66xtBAAAAYLCIEUEAAAAg8cADQQAAAIBTcA5BAAAA4IhR80AAAABAECAHQQAAAIDWPfVAAAAAoG8lA0EAAADAi6frQAAAAIAgFSdBAAAAIK9d8kAAAADANXAXQQAAAOByLvJAAAAAwKbeAUEAAADAxPj0QAAAACBIlOxAAAAAYLhW+kAAAABgzLAQQQAAAMBENR9BAAAAgNHF6kAAAADgBF7yQAAAAGCYhPdAAAAAgJgMD0EAAACAhcoDQQAAAEAnMBVBAAAAAA+XHEEAAABgKuYjQQAAAADG1A5BAAAAgHq9/0AAAABAGF02QQAAAEDw9wNBAAAAgI1CDkEAAADgy4v1QAAAAGB4oxpBAAAAgIrt+UAAAAAAUtsHQQAAAGC0ggpBAAAAQEs+9UAAAADgx9b/QAAAAABWZv9AAAAA4LZ+EUEAAAAgrosAQQAAACA7M/NAAAAA4Fx26EAAAACA0+r/QAAAAMDY7PNAAAAAAGv9AUEAAADAlI32QAAAAOB8OOdAAAAAQF/RF0EAAACgYtgyQQAAAKDERvtAAAAAwEI39UAAAABgJOElQQAAACB6oxBBAAAAgOLa7kAAAACAVabzQAAAAOCwLjJBAAAA4AQB+kAAAADgrUkGQQAAAMDGtOtAAAAAQMjRFUEAAACgmaIiQQAAAGB8RvdAAAAAoCwL+kAAAACAaBf7QAAAAECIB/NAAAAAoJ2g8UAAAACgKdUDQQAAAAD3bOpAAAAAwIpJ8UAAAACg6qMKQQAAAKB2GfNAAAAAANzgIUEAAAAgr/gTQQAAAEAmV/xAAAAAoBOvJEEAAAAgudEwQQAAAKCLbCJBAAAAgIvADEEAAACA/U8TQQAAAOBQt+5AAAAAgA3EA0EAAADgekkDQQAAAGATXvxAAAAAAPnXE0EAAAAANNIOQQAAAGA0aStBAAAAYOXBEEEAAADgtF/uQAAAAABhjfdAAAAAgAgK8EAAAAAAqSQFQQAAAIB8Ph9BAAAAoJ5u7kAAAAAABpsQQQAAAGA6a/9AAAAAYLDRFEEAAABA5bkDQQAAACCW3+lAAAAAgFpU6UAAAACAkMDyQAAAACAkvCNBAAAAIHlrFEEAAAAAUTbzQAAAAOA9jAVBAAAAgKjF8kAAAACA9rICQQAAAIBeV/BAAAAAAAP6AkEAAADgAEoQQQAAAMD0dRRBAAAAIFhG+EAAAABgqFcFQQAAACCA1fFAAAAAQAbO6UAAAAAgMRj5QAAAAEBzowhBAAAAAEvx8UAAAAAAj0n9QAAAAMAl/RJBAAAAIEDIA0EAAABAO1H3QAAAAGADBRVBAAAA4LyR+UAAAAAg7BX3QAAAAKCOLPZAAAAAoD9F8UAAAAAAfIX1QAAAAODgM/VAAAAAAIwyN0EAAAAg+VUKQQAAAGCVqQtBAAAAoM8VE0EAAABgQvr4QAAAAICgTwhBAAAAoMlj/EAAAADgIUkGQQAAAGAEfO5AAAAA4G2P8kAAAABAHsgBQQAAAEBPgBJBAAAAoByH9kAAAACAQOv1QAAAAAArwvRAAAAAYH3G60AAAADgCSz1QAAAAMCYRPxAAAAAgGLj70AAAABg3qLqQAAAAICxjfRAAAAAAPhTA0EAAABA5vr8QAAAAMCVKPNAAAAAYL1K+0AAAABAMyrnQAAAAEBfaiBBAAAAQPRbBEEAAADgpur1QAAAAMDLNw1BAAAAQNq2/kAAAACgybH4QAAAAGBf3wFBAAAAQC8SAEEAAABgSn3rQAAAACDUqwBBAAAA4LNc/UAAAADAC/4BQQAAAGAkpfdAAAAAwOPZEkEAAAAg968IQQAAAMAc0PZAAAAAwH0K9UAAAAAg9gUrQQAAAMCS0wNBAAAAwEfQBUEAAACggM3uQAAAAADPSANBAAAAANlo7EAAAADA4+MJQQAAAMBTd/FAAAAAYF2aMUEAAACAk3XxQAAAAAAGbP1AAAAAoDb4GkEAAACAMgXrQAAAAACsofFAAAAAIMHJ60AAAADgfMb1QAAAAODSkhJBAAAAoMSmQEEAAABgNW7zQAAAAGCHQSFBAAAAgJ0B9UAAAABg7KkaQQAAAGBXMvVAAAAAwJ8A8kAAAABgC/EWQQAAAED6OvBAAAAA4CrdBkEAAAAg+BT5QAAAAOBD6+pAAAAAgNVY8kAAAACgSf8GQQAAAIBS6TdBAAAA4CQ/IUEAAAAAsKb4QAAAAEAFKflAAAAA4NYj90AAAACASGAAQQAAAKA2f/1AAAAAQM1s7kAAAACAIkQUQQAAAEAkv/pAAAAA4F9u9UAAAABgkyTyQAAAAGBsVPBAAAAA4LeEZkEAAACg6ClOQQAAAABmOyNBAAAA4IkdMkEAAABgmRIFQQAAAOCIvwJBAAAAYBK2BEEAAABgvcTyQAAAAOAYBwFBAAAAQLiFAUEAAAAARFQdQQAAAOBk4ulAAAAAIABHBEEAAABAYGHvQAAAAIApQu9AAAAAAKfKJkEAAADAYLj0QAAAACBw+RFBAAAAAC/CAUEAAADAbZztQAAAAEBQVfNAAAAAIIzD/UAAAAAgxtFCQQAAAMDO/O5AAAAAoEd7IkEAAADA09H8QAAAAKCh9ANBAAAAQCK060AAAACgH4UEQQAAAOD6uPRAAAAAIM3T9kAAAACANBzuQAAAAECf4fFAAAAAwM328EAAAADgG/fpQAAAAODmV/BAAAAA4NDEAkEAAAAA/hT/QAAAAEBVjOhAAAAAIF/cHUEAAACAHsMCQQAAAABpbAdBAAAAYCBU8UAAAADgqR8gQQAAAGAsrwdBAAAAAL6u70AAAABA4kEQQQAAAABHg/1AAAAA4AUwA0EAAABgqpfxQAAAAACeW+xAAAAA4N7R8EAAAADgcZrzQAAAAKBkMBVBAAAAQBm3+0AAAAAgBd7/QAAAAOAVHO5AAAAAYBrT80AAAAAg8VTnQAAAAEDB6QRBAAAAAHxNNkEAAABAxp0ZQQAAAOBCqPtAAAAAAP9A7EAAAAAAFdbsQAAAAAD2gfBAAAAAAFJu70AAAAAAtcHvQAAAAMD26gFBAAAAAEK1LUEAAADAEfntQAAA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5tfs8dLAckABHT/S3sJyQM9Qe1O8ynJAevYntAfPckAAUsd0/tJyQB0K0xRJ03JAfvMAlsvackBbkw+2KNtyQLUNFvZR23JA9t1D19PickB6JUgX7+JyQFSAgBi06nJA3AOEeMrqckAmkYa42upyQKo3wPmn8nJAq1HDubvyckBqxscZ2PJyQJcs3xlt83JAMo33emb6ckAZiAib0vpyQLGwQFyWAnNA8UpNnOYCc0ArvX/9hQpzQLMbjn3hCnNALF4cXmsOc0DWm7y+ZxJzQPvlyV68EnNASx/RXuoSc0AdJwAAdBpzQCfWReGNInNAfmJWQfcic0Dvl73DRDJzQF38zoOzMnNA4U91pNY2c0ANigmFhjpzQCoOD6WpOnNA2JtJpnxCc0DI4ksmi0JzQEqkZoY1Q3NA1eeT57NKc0BDV5fHyUpzQKFBo6cVS3NA8e5YiJpPc0APadfov1JzQMS238j0UnNA0fTliBxTc0C3ZBDqiFpzQDLeEwqfWnNA69oZKsVac0BDchyq1VpzQNtVIir7WnNA+NknSh5bc0BlZN6qqF9zQJZrTatrYnNAnIpQi39ic0D4d1XrnmJzQDjEWOuzYnNAbJNdi9Jic0Dk1pssvWpzQM7XXC2Kb3NAj1zdjbxyc0C8zeat+HJzQCAbvU5NeHNAZf0lL+l6c0AnrimvAHtzQHMilI+mfXNA73RZEI+Cc0D5HWVQ2YJzQGGIaBDvgnNAF7OWMXOKc0CQDHSy9I9zQB105jLNknNASljucv+Sc0B3r/TSJ5NzQG4BMRQGm3NACZpudeyic0A5LXT1D6NzQDnlpFakqnNA6Hu2VhSrc0D6mncX4q9zQC9r5xeqsnNAY9b+Nz+zc0DO2zYZArtzQFJde3oUw3NA4Nyn+43Kc0D3zqsbp8pzQBTGr1vAynNALpu3O/LKc0CCEL5bG8tzQFiI8pzH0nNAexH43OrSc0CCWQ8df9NzQNl/Lp6j2nNANzY0/sfac0AnCjhe4NpzQAmmb5+g4nNAPal6v+bic0BRFZX/juNzQDxhqyB76nNA6Pq1oL7qc0CyyrwA6upzQIgxxYAf63NAZynxoZXyc0AM/fOhp/JzQNh7+EHE8nNA7AwIYifzc0Bz6yFDKvpzQO40PmPe+nNA5M5JQyj7c0Af6IBE5QJ0QMdFjKQtA3RAeJPwpmgSdEDK5vpmqhJ0QHmI/obBEnRAecsVp1UTdED7mT1IsRp0QFJlRkjpGnRAIcdOqB4bdEBCLliIWht0QHx3dol5InRA4Ex/ybEidEDMpYtpACN0QD18veqbKnRAO2nSKiErdECFbw0s9zJ0QBP4EKwNM3RA0NcajEwzdEAm80ftyTp0QM+PS+3gOnRAXRhPbfc6dEDCRlMNEjt0QOZ2Xe1SO3RA1TJ5rmFCdEC0wH2ufkJ0QOX6h86/QnRA0h+O7uZCdEAY9bvvaEp0QMj+yw/PSnRAluT+UHFSdECmeYkToGJ0QMdzznS1anRA7avR9MlqdEBVvdlU/Wp0QOtK3fQTa3RAn5jl1EhrdEBjlD51f210QLbaDVancnRAidEQNrpydEDg9RSW1HJ0QMBEIfYic3RAWLUoVlJzdEAkdUC3R3p0QC4TWtfqenRAv/FfNxB7dEDq8mO3KXt0QHwcvzdufXRA7RXiOQmLdED2/eUZIot0QLtuE5uhknRA3CMmuxiTdED4RVl8vJp0QKula3wxm3RAXaOrHSejdEDI8LKdVaN0QDZgtn1ro3RAD3jXXpyqdECxD9s+s6p0QH1P5z4Bq3RA2K/qvhardEDYivXeW6t0QJq/I0DgsnRA9DkqgAmzdEC3dy/gKrN0QNuNNgBYs3RA0c5GgL+zdEBCSF4hs7p0QFsJneKgwnRAC2yoYunCdECm/qsiAMN0QOv9y+LLw3RA5IhTJInNdEBkLJGkEc90QIJ2KAXV0nRAF5EthfXSdEBebzKFFNN0QNf6P8Vq03RA0JNtRuvadEDGT7rm09x0QABHsCfy4nRAN2HFh3jjdEDsi/Oo/Op0QNGDlQkE73RAwSgdymPydEDWq4aqA/V0QAkrfqsr+3RAYCyoTJUCdUAV7a5MwAJ1QBjFwOwxA3VAbx/m7X0KdUACWwYuSwt1QJiumw4CD3VA4R4sz5kSdUAyDkkPUhN1QE+STi91E3VAX7Vz0L8adUCp6Xqw7Rp1QB4Fg1AhG3VAn16RsHwbdUB1VLYxxiJ1QFVvvBHtInVAhei+0fwidUBix8WRKCN1QF629fK3KnVANwACMwYrdUAn1AWTHit1QA2sPPTZMnVAe6hBtPkydUC1goAV6Dp1QEfUhJUDO3VACP7A1uBCdUB6pAtYGkt1QIw2yzjeT3VAbKs32ZBSdUApMkZZ7VJ1QLHPTHkXU3VACOt52pRadUDOJYa64lp1QF8Tnbp0W3VAUmjSeyZjdUDnaVZeK3N1QE7UWR5Bc3VABHtdXlhzdUC6tJwfSXt1QIBUAeDJfXVAWxPiAGGDdUBKnxbCDYt1QJjQJCJoi3VA9aJIY6qSdUAjFFKD5pJ1QANJWyMhk3VA891m42qTdUAwCG6DmJN1QBM6fqP/k3VAqKCIBKCadUB6l4vkspp1QDrNl6QAm3VAq5KdZCWbdUA2oKkkcpt1QHYizsW4onVAm8XWxe+idUCo6dnFA6N1QAwY3mUeo3VAMLvmZVWjdUCBge9FjaN1QJhz82Wmo3VA140LB56qdUBA7RynDKt1QL3CXEgBs3VAp8VmCEGzdUDkSGkIUbN1QMopd2ips3VACFaZKeG6dUDDYNKKqsJ1QJ2Q2wrlwnVAVY3hKgvDdUDXWe6qXMN1QE7CISwCy3VAYl+OzLXNdUDDCFlNwNJ1QCsAXu3f0nVAdadj7QPTdUDWf2WtD9N1QBdzbU1C03VABD94DYfTdUAwgrVOa9t1QMXs3i/R4nVAlTTkz/LidUATBOrPF+N1QOwFJ3H66nVAGl0t0SLrdUCRWzkxb+t1QOxiQVGi63VACapp8gDzdUAzOG9SJPN1QLh/c5I/83VA/PyDkqjzdUAV+Ztzn/p1QDCprnMW+3VAwQvftKgCdkAf9uqU9AJ2QJqJ8XQeA3ZA4fT3VEcDdkCu5voUWgN2QExTK5bsCnZARrY3djsLdkBjOj2WXgt2QKr1Z9fMEnZA0UduF/USdkC6o3M3FxN2QFdNxpclFXZAhiiyeAMbdkBokOM5nCJ2QBel5XmpInZAwyTtOdkidkBiHAR6ayN2QLlNFRs3KnZA4K4s+8sqdkDCWXXc+DJ2QJ/fgDxCM3ZAN0exndQ6dkDWl8M9STt2QAbu6z6oQnZAEhLvPrxCdkDPSvR+3UJ2QMWW9h7sQnZAd+f3fvRCdkB6V/0eF0N2QBD/A39BQ3ZAHSMHf1VDdkCOQQifXEN2QH3YLoCwSnZAbVM3gOZKdkCrCkAAHkt2QKSsRIA7S3ZAzvJ6QfNSdkDbvYLhJFN2QI1cjYFoU3ZA9eCTAZJTdkAiE6WB/1N2QEhXSuIbWHZAsRDCQhZbdkCtCMmiQlt2QMtn2eKqW3ZAEgkBZAVjdkD71wSkHWN2QIbLDaRWY3ZAqogZZKFjdkBpZSrEDGR2QOpYR0Uja3ZAT4dL5T1rdkDuFlYlgWt2QOFAXGWoa3ZAs+B+BuNydkAO6IYmFnN2QJkpmWaKc3ZAwHufprJzdkByc6Wm2HN2QDaMtSY/dHZAbznBp+d6dkC/5cbHC3t2QAR0A4nrgnZACa0JKRODdkBoYw+JN4N2QJ9JHmmWg3ZAwMoqCeaDdkCGBTfpM4R2QInoOqlMhHZAHY49qruKdkCF7U5KKot2QB0WhwvuknZAsdeQKyyTdkAMUpdrVZN2QDdtnquCk3ZAGp+uy+mTdkBlrsDLXJR2QKTsYuxlmHZAH3wcrmGjdkCVGTQO+KN2QPKsX69rq3ZAGWmNEO2ydkAvj5ewLbN2QBKnpBCBs3ZAJW7V0RW7dkBcbudxiLt2QEXBFZMNw3ZAYP4pc47DdkBFVFEU58p2QDHsVVQEy3ZA0OuqlCHNdkDJ1ZV1+dJ2QGgxmjUV03ZAv72qlX7TdkD9AbX1v9N2QGvB3DYb23ZAZKgT+NbidkBnpRp4A+N2QODxLxiL43ZAq/qYOuTydkBeDKL6HfN2QNUKrlpq83ZA7Knwu3D7dkCkTxadvgJ3QEn+I70VA3dAVUJkHg0Ld0CJ+YAfIhJ3QF/Xpj8TE3dAsx7hgOQad0B5sujAFBt3QMlKJcL0IndAvMI0Qlcjd0DKD0yi6yN3QGTjYiPbKndAzdpnw/oqd0C7JjmELzB3QOyGo+TUMndA92O1pEYzd0Ci47xkdjN3QE4kzITXM3dAcVbxhSI7d0CYT/xlaDt3QPOv/+V9O3dAotUt5wFDd0B1czVnMkN3QFGGQqeFQ3dAnmBwyAdLd0Cr0nwIV0t3QAb6wYltU3dA1ffcaRlUd0B+/Oxpf1R3QG0c9qoXW3dAL3T+ykxbd0AvGwNralt3QBP/CUuWW3dA2uoujN9id0AivkFsV2N3QG3YRYxxY3dAHJRMbJxjd0DouVWs1mN3QAIRbUxrZHdA5WdyTI1kd0CtT3gNEWt3QJ2LiG14a3dAr9Cpbqpyd0BMcr7OLXN3QMd4w85Nc3dAbGbJjnNzd0Aon87OlHN3QJrx1W7Dc3dANRHbDuRzd0AhtuyPsnp3QKo9D3COe3dAN9c+sRuDd0A0kE1xeYN3QP1FURGRg3dAwPZUkaiDd0AUbFux0YN3QBp+aBKDindA+phu8qmKd0Co1oSSN4t3QJhtq3OLkndAOqHB0xiTd0CVdMNzJJN3QN+Ox5M+k3dApSLP026Td0Bkl9Mzi5N3QERz4XPjk3dA1RQKVUSbd0DF1ESWGKN3QCOAWNaVo3dAY7RzN6Gqd0C0IYG39qp3QBK+g1cHq3dAKbCHdyCrd0DXlr3Y1bJ3QEwlxJj/sndA8hLKWCWzd0AyBtL4V7N3QA5PANrcundAjQQDGu66d0ABrQyaK7t3QAVRGLp1u3dA8d9F+/XCd0B5WFc7ZcN3QEkIadvVw3dArDiInPrKd0DkUp38gMt3QNoGrJzey3dA6g/OfRXTd0AbZNtdatN3QEuE4r2X03dARNMlf6Lbd0CCpkzg9+J3QFSsYGB343dAu0yFwb7qd0AWg9viQfN3QGpIBmSw+ndAtZV3BeADeEDtV87HxBJ4QPHh1if7EnhAepngBzkTeECKR+xngxN4QL6yA4gYFHhALiEpCWUbeEBcP3FqjiN4QAsKieolJHhAmZSni0YreECNiF6M0y94QJu83Yz9MnhA+sDsLF0zeEDqPxStWDR4QC0JKo5BO3hAjogw7mo7eEAjozVuizt4QK284w7gP3hATYFfL/RCeEAAIGrPN0N4QBbTdU+CQ3hAdBZ9j7BDeEBtRYPv10N4QEQ5jU8XRHhAN5eZD2ZEeEBrmqQvrER4QMDVPJB1SHhAA3ymUBZLeEA93azwPkt4QEeGuDCJS3hAcnZiUcNPeEBtptMRlFJ4QCO141H6UnhAjo/ssTJTeEC0+/WxblN4QD0M+/GOU3hAskEGUtZTeEDoZg3SA1R4QFBeEnIjVHhA8ikc0mFUeEBAgB8Sd1R4QJqFI9PuWnhAlNRmlPlieEDo1m6ULGN4QL3KePRrY3hAxGuLlOJjeEA8w5JUEWR4QLon7/YZc3hAzYT4llVzeECWx/0Wd3N4QAFJCxfNc3hA18kWVxZ0eEC/zjs4YHt4QM1RdDkmg3hATqCQedqDeECWqcT6g4t4QPa1zDq3i3hA9gXxm/ySeEC8AQXce5N4QJuPCdyYk3hA338Y/PeTeEBpJsh8Vph4QBk8NR0Nm3hA4wBKXZGbeEBP1lXeOqJ4QPwAgb5No3hA4uGOHqajeEBWQsn/d6t4QPXi/wAys3hAGGwFQVWzeEA9thLhqbN4QJ1RNyLxunhAlheYg7fDeECCOQFGEdN4QPprEyaF03hAf+cd5sfTeECzdyrmF9R4QGQuNOez2nhAFwFFBx/beECS7UZHK9t4QNapT+di23hAyaWJSDLjeEDStyOrw/N4QLS3SGwN+3hAKVVgzKP7eEBG6pGtPQN5QFPPnA2DA3lAQz+z7REEeUA/FOCOjQt5QIFv9C4PDHlAQi0F8NcSeUDUgijwuBN5QLEINFACFHlAP+5RsMAUeUARVk9RDht5QBEMZZGYG3lAJNOVUi0jeUCc0aGyeSN5QPSCp/KdI3lAnG20MvAjeUBylcQSVyR5QOPa1TMjK3lA98Tgs2greUByPuTTfit5QJXH6ROiK3lAlfIYlSwzeUAd6RoVOTN5QDr6IRVmM3lA6lwtla4zeUDXtTk1/TN5QKbYSfVjNHlAZEBY1h07eUCzcWY2eDt5QHo4lpcGQ3lA1SWb9yVDeUClbaCXR0N5QG6wpRdpQ3lAV3+pV4FDeUBuca13mkN5QEO+sje8Q3lAHXu9lwBEeUAbMoOY60h5QKQgGXoEU3lAaicf2ipTeUCnuTJ6p1N5QByNa3tvW3lAgLKYHO1ieUBAHKtcYmN5QCjrrpx6Y3lA6l7Vnc1qeUDEdNtd9Gp5QI8C8Z19a3lAAY84X6NzeUARfDxfvHN5QMMRcABje3lA8YJ5IJ97eUA4ktCAyX15QBHWueGWg3lA2fkDI82LeUDNlgiD6ot5QF1ynyOrj3lAwkwyRFKTeUDDDTqkg5N5QB0VQsS2k3lA32xK5OuTeUDM8IUFxZt5QLVDtCZKo3lACWC/5pCjeUBkTcRGsKN5QErgyGbNo3lADKvPpvijeUDeb+cn7qp5QId09ydUq3lA9A4qifSyeUBzlEXJo7N5QIQoTmnas3lAeUUZyue4eUBZ6mxq/Lp5QPRXe0pYu3lA4paEKpO7eUDb+ZAK4rt5QJ4p8CpAvnlAPh++q1/DeUArxtOL6cN5QHzcAM1my3lA0EYVzejLeUCSPEuOntN5QEG62/Dy43lAw6DrMFjkeUBXmjET0vJ5QPMwVFOu83lAPqndsxn3eUDvh5C0jPt5QBkwmdTD+3lALDbCNScDekDinc3VbwN6QF0x1LWZA3pADHrcdc4DekBNbeQVAQR6QObd63UwBHpAzhT8tZcEekAmUwPWxQR6QIOaQFgIE3pAYs9J+EITekD75lX4jxN6QD/XZBjvE3pACxdxGD0UekAPYoHYpBR6QHPNebnSGnpAcjWGuSEbekBlX4z5SBt6QEi2kflqG3pAZUvD2gQjekCwmc16RiN6QImv0zptI3pAQh/YeokjekAbNd46sCN6QJk46rr8I3pAuiz1ekIkekBKpJ6beSh6QMomBrwMK3pA9+tSvVMzekA+/l09mjN6QMkLav3mM3pAewNw/Qw0ekABf3q9TzR6QE5Klz5lO3pAhQLaP2xDekATpeB/lkN6QCeP6//bQ3pArQzMgHFJekDfDxwBb0t6QPb2LQHhS3pAlMdLAv1SekDLrVriW1N6QHcTX+J3U3pAu8qvA9hbekAfFdKEEGN6QDx/1OQfY3pATDzx5NZjekD7BgllbmR6QBU9YWdcc3pAukRq55VzekD3bnGHw3N6QMPtdSfgc3pAyn93J+pzekDboIGnKnR6QNnhlGgDe3pAypCj6GB7ekDgQ69oq3t6QD8UuIjje3pA+kPmyWeDekDgfe+JooN6QCFx9ynVg3pAOwcHajiEekAN5iGrQYt6QEvRMKugi3pAPm41C76LekAWd0VMgpJ6QJg4YKwsk3pA6XFnrFqTekBbqmuMdZN6QM9SdQyzk3pA43t4LMeTekCIRIkMMpR6QLWBjKxGlHpA/2mlbUObekDYf6stapt6QETNsq2Ym3pAbVLhDh+jekBqC/DOfKN6QJqe9U6go3pAcR8Bj+mjekCXKTgwpqt6QOy4QRDjq3pAerp9Ub+zekCWtlDS/rh6QBJLwhLSu3pAL+Dz82vDekDusRI0MMR6QKPAInSWxHpAtk8uNT7LekDXtjcVest6QHgfBLaP0HpAWeJ5ln3TekDnX4v27NN6QGInmFY+1HpAEOvz+ELjekC47wP5qON6QCABDFnc43pAO5cbmT/kekAHMCP5b+R6QONcM/nW5HpA/Lw4WlfrekClOoEbg/N6QDoWjvvU83pAlVGcmy/0ekBhkaibffR6QBgjBV6HA3tArhgV/uwDe0AMXBw+GwR7QOKDLB6CBHtAwzC+viEIe0D+wX3AQxN7QGIKhSByE3tA1M+K4JYTe0DE15TA1hN7QNRRmqD5E3tATKmhYCgUe0AWx7EAjxR7QN2y1kHYG3tADkbcwfsbe0DnbA5DmSN7QCJBEwO4I3tAFWsZQ98je0CzhyVjLCR7QHPxN6OhJHtAvYtHJGMre0DGTlYkwSt7QBj7W0TlK3tADViKpWoze0DDMpRlqTN7QOApmKXCM3tAhReeZegze0An/aqFOjR7QLyxviYWO3tAyZbJhls7e0CrdRjor0N7QDFKHgjVQ3tAog8kyPlDe0DSoilIHUR7QOUbUcl2S3tA8l+RKm5Te0CbiZYKj1N7QPLHnSq9U3tAIMaoKgNUe0A8exdtgGN7QIDEIe3BY3tAJeYtLQ9ke0CnNmWOzWt7QP2Qio8Zc3tASIaZz3hze0DUIKdvz3N7QDIC3FB+e3tAvdvhkKN7e0Bf0hpybIN7QFuwHhKFg3tAsyIsstqDe0AxszkSMYR7QCfcYfOOi3tAKcWfVHeTe0BUsL+UQpR7QCMaHbdRo3tAOVoqF6aje0AzozM34aN7QH6YQndApHtATN2quZSze0DuwrfZ5rN7QJEH+vrqu3tAoycmHGLDe0DKeSxcisN7QPcePPztw3tA4QdD/BnEe0D/ZlM8gsR7QIeRWzy2xHtAMQ9fnSrLe0Dh5Gg9act7QLZ/dz3Gy3tAiNWvHovTe0BPabdeu9N7QO6Fw34I1HtA6svTHnDUe0ASkdh+jtR7QOM2NcGY43tA8INMIS3ke0Bb0VOhW+R7QCv0Y2HC5HtAfoFp4kPre0B3V3TiiOt7QLKgkuOn8ntAqC+so0rze0Ba6LkDovN7QAC8vAO083tAyYDRQzj0e0CvLdkjafR7QHJG6aPP9HtAoVn6hJr7e0DfvUFGvwN8QN+YTGYEBHxAp2hTxi8EfEAjFl1mbQR8QMWibibdBHxABI+66HwTfEBSjMLIrxN8QHBt4sh6FHxAfDoFirYbfEA40j/LiSN8QAgaRWurI3xAKA5QK/EjfEAbR2cLhSR8QDeZgcyKK3xAENq2DTwzfEAHqMhtrTN8QHxF4M1DNHxAR4cH75s7fEAgeBjPBzx8QNgdPrBVQ3xATfpNsLpDfEDPOVlQAkR8QPzEZTBSRHxAOkqDUWxLfEA9lZMR1Et8QJtCwnJbU3xAelLWMttTfEDrQgt0ilt8QMR4TpWUY3xANOK7lwlzfEDRT8p3ZXN8QDFWgTqvhHxAmBoCfZ+UfECVhQf9wZR8QIiDXH+bo3xAgcFzfy+kfEBAUHufX6R8QCe+it/BpHxAd/eR3++kfEC3pOUBwbN8QAVJ8oERtHxAd/T0gSK0fEA29vrBSLR8QPkOC0KvtHxAwhIYIgK1fEAFlF5kf8N8QIDobKTaw3xAXMdzZAbEfEBtHIRkbsR8QJc3i6SbxHxAeWmbxALFfEAfZK7F2ct8QOTj7ObF03xARWPzRu/TfEBo7PiGEtR8QHhBCYd61HxAynoQh6jUfECShnIp1eN8QEsqfekY5HxAw4GEqUfkfEAOBJXJsOR8QMjG/osO9HxAepsqzYP7fECVMToN5/t8QPkMfe7uA31AbS6/L/ILfUAcfQGR9hN9QDy2PpLaG31ASMZ4c6ojfUDaMYCz2SN9QNh3kFNBJH1Af7LB9NgrfUCV2MuUGSx9QI1y13RjLH1AyZ75NZszfUA4KADWxDN9QDvmDrYiNH1A1zka1mo0fUCO+UJ3zDt9QBOPUPciPH1Axrpcd3A8fUBO53+YrkN9QGEqhnjWQ31AnHGJWOtDfUD5NqBYfER9QJVwqLiwRH1Au9X12llTfUDrgv4akVN9QI2Sob1bZH1AJbYhAEh0fUB6eTFgrHR9QKSUOKDZdH1A5/+aogiEfUC3e6bCUYR9QLPBtmK5hH1AuQvpw1eMfUBychYF15N9QFFDMiWIlH1AG2FCxe6UfUCMJkiFE5V9QB7rSiUllX1AfpebJ+OjfUCosqJnEKR9QJEoq0dGpH1Anpq3h5WkfUB7x8eH/KR9QBIMHires31AslwwylK0fUA5oTuKmrR9QHimTUoNtX1AnvhTijW1fUBNZE3Labt9QGBulaySw31AXy+dDMTDfUD01qNs7sN9QKGktGxZxH1A18m77IbEfUACUwnO0sx9QJJyIu/Q031AoLAor/jTfUBLfjmvY9R9QBgXQQ+U1H1A8E6fUajjfUBY06XR0eN9QK95ufFO5H1AzTHFkZnkfUC1exy0gfN9QED8JpTE831Av6Y3tC70fUDJuWoV0vt9QFOIfjVQ/H1AzmC3VhgEfkDf2rw2OwR+QE0LyHaCBH5A9RHzl/ILfkAIHDt5GxR+QGc6TdmOFH5ASaJ+miccfkBcG6YbgSN+QNdVsZvII35ATDLBmy0kfkBF7sjbXiR+QEj9fT/6O35AF2XAQP9DfkBTE/LBmUt+QPzTUaNZVH5AQQNZY4dUfkDtE4GDhlV+QHcQeESrW35AH26DpPNbfkDLj9eFaWR+QFfR6cXdZH5AkD/9prdrfkDq5DJoa3N+QK1/Uqg0dH5APHBiKJp0fkCas2loyHR+QOU1eogxdX5At1WRyMR1fkAOP9PKJIR+QIwO2cpJhH5AAbfiSoeEfkD39/LK7oR+QFKm/4o/hX5A6pgWq9GFfkBIsQUsxIt+QP2LD+wCjH5Asl1CraSTfkCsjEgNzJN+QNwUXG1IlH5A7RtjLXWUfkCDEXPN2pR+QE4siu1tlX5AmBCELqWbfkAtZcnPvKN+QAbj248ypH5A4w/sj5mkfkCcQPgv56R+QMVJUXLas35AbeZUcvGzfkAMA2GSPrR+QBBOcVKmtH5AzumFs4e7fkDKdMiUjcN+QLFv2bT5w35Avgbb1APEfkCc1FmX59N+QA4cbxdv1H5AlsiG1wXVfkCf99cZx+N+QDvy59ks5H5AgpH0OX3kfkBZEgB6xuR+QMw1XdzT835A+jNo3Bn0fkAVdtj+oAN/QIdV4X7ZA39ApGbofgYEf0DI/4CBjhR/QKbuA0LQF39AWV35Q0kkf0DEqgDEdyR/QCV4EGTcJH9A4XM4JTksf0DnHz3lVix/QP2KecY1NH9Aol58xkc0f0ABiIBGYjR/QDI1iYaZNH9A16+QJsk0f0ANhPEI7kN/QADI+ggpRH9AF9QB6VVEf0B4SBYp2ER/QI/YR+pxTH9A5fN0S+9Tf0DiH4IrQ1R/QFC4mWvZVH9AovGgawdVf0AQybBLbFV/QOCsyGsEVn9AisTa7TNjf0DBufpt/2N/QNigDG5xZH9AUSwarsdkf0CxujGuXWV/QGY50U5VaX9A+OQ7j/xrf0D/PX+QB3R/QLEqk3CGdH9AD26asLR0f0C9d6rQGnV/QENq0jAZdn9A0Aa2kcJ7f0BJBcLxDnx/QEgL/JLeg39AyjAEcxKEf0ALJAwTRYR/QPsREzNxhH9A9wkak52Ef0Abkx/TwIR/QMFbMLMrhX9AvxV8NcqTf0BoP4EV65N/QCqMlxV5lH9AyaijNcaUf0BawwTY7KN/QEHYGLhspH9AnN8g2J+kf0D86ygY06R/QKhiWdllrH9ACfxi+aKsf0BMlZHaKbR/QKEkm7pmtH9AtM+tmt20f0AiYQn94MN/QAj0DR3+w39AzocVXS7Ef0AryxydXMR/QEBnHt1mxH9A4qUmXZvEf0CGQoZ/uNN/QFazn39a1H9ATxasX6nUf0DXheage9x/QGJwGKIX5H9AQWYpooPkf0AaCTFCtOR/QOOqa8OH7H9A6fSdJCb0f0ADTLXEuvR/QEG2MKQOBoBAPQczZB0GgEBpUNjkOQqAQHKxFIYYEoBAueNcZ0IagEDgG2DnVhqAQOqqaGeNGoBAZSRsh6MagEBmXfznOR6AQEIiAOhRHoBARKmZiCMigEDplp9ISSKAQPfuqMiEIoBAkjnd6S8qgEDfNuXJYiqAQIHO6Kl5KoBA49rw6awqgEDSzBaKniuAQKikGcsOMoBAELYhK0IygEAmNScrZTKAQFE2K6t+MoBA8mtcLBY6gEAsWmSsSDqAQOx1bayCOoBAbSqSjcpBgEDfCZsNA0KAQKEIqM1VQoBAHSmwjYlCgEDUAtzu/kmAQAy15E42SoBA6AbqLlhKgEBT4fKOkEqAQAttFbDKUYBAT7YfMAxSgED3UiMwI1KAQAmIyDA/VoBALtdfsQJagEAiAWbxKVqAQGJNafE+WoBADyZsEVFagECKYHeRmFqAQFNa/bHtXYBABUSi0gdigECpMaiSLWKAQAuXqzJDYoBAiUyuclRigEAoabqSoWKAQMmE6FMlaoBAXxLs8ztqgECVN/NzaWqAQNB+9lN+aoBAhakkdQJygEAx6jOVY3KAQNCKapYdeoBAdax21mp6gEDKzQt3IH6AQF3ArFchgoBAMLevNzSCgEATh+34G4qAQCp58Rg1ioBAour7mHeKgEDpWzwacJKAQF13RLqjkoBANCLPuhaWgEAM0Xg7T5qAQLG+fvt0moBAL3SBO4aagEASy4Y7qJqAQIOHtfwvooBAXJ27vFaigECHK8EceqKAQI0c+B02qoBAg4L9fViqgEDbpgHecqqAQIAhCX6iqoBA8akxvwKygEBMJDj/K7KAQLpUQz9zsoBAXP1y4AC6gEDnCn+gTbqAQKPQhcB4uoBACJEVIQy+gECMPbehEcKAQKYSv4FDwoBA1tnKgY7CgEB0cVgiFMaAQFG99cL9yYBAw4L7giLKgEDCnP5CNsqAQI+OAQNJyoBAB1kH423KgEBN26HDRc6AQJuEOCQF0oBAvLc7hBnSgEDsSkEEPdKAQAPkScRz0oBA79qDBUPagEDz14qFb9qAQJTOw2Y44oBAdC78h/3pgEBoR6hoRe6AQHMpRAkm8oBASXZJyUfygEAPfU8pbvKAQMvPVymj8oBAHy12qsL5gEAbaJQqg/qAQNQcy6s9AoFAsC/Y65ACgUAc5etrDgOBQKniCC0lCoFAjKwMTT0KgUC6kBSNbwqBQGLUHC2kCoFAC3EgLbsKgUAEY0kOHhKBQPcZUS5PEoFAEWJXLncSgUABw1xumRKBQKYjYU61EoFAGbrqbiEWgUARTo4PMxqBQBS+k69VGoFAKz2Zr3gagUAkbJ8PoBqBQANkyzAWIoFAeEvNUCIigUByetOwSSKBQG//2/B/IoFAppfhkKMigUBxJxLyNiqBQDC2GRJnKoFAv8secocqgUDFrUTT1jGBQJFbl3RDOoFAziyjtI46gUBetaY0pTqBQLK3rjTYOoFAp/rZ1UlCgUDFsuV1lEKBQMH6EDcGSoFAHxkjl3lKgUCECC+XxUqBQM7lVTgbUoFAC0RjWHBSgUATLzIa9F2BQKAnxfqbYYFABFroGnxigUAhLPd62mKBQEGKKVx5aoFAV2hkXU5ygUBe1XB9nXKBQCTCcx2wcoFACg2pnmF6gUD64Kz+eXqBQHVasB6QeoFAe5O2vrd6gUBkc+a/RoKBQKve7J9vgoFAMJ8poVCKgUBX1ywhZYqBQOwLNWGZioFAdRw6obmKgUB9rV1C+pGBQPhaZ+I3koFA+U91wpCSgUDIfXeinpKBQDwdqiM/moFAunmxA26agUDYMb2juJqBQHAM7CRBooFAvgn0BHSigUDYUfoEnKKBQLHrKqYvqoFAu5Q25nmqgUBYlNCGTq6BQBXHbYc3soFA/iJzp1mygUD+VnkngbKBQNyIEwhXtoFAJGGwyD26gUDhmbUIX7qBQAe+72kvwoFA2RdHy7nKgUBH124MFdKBQHtNeExR0oFA0OuSzPrSgUDjssONj9qBQOaK1S0B24FApQH1rifigUAdGgTPh+KBQMUpBu+U4oFA/MELj7jigUCX8jzwT+qBQAhFRJB+6oFACQZM8K/qgUDBHnDx8/GBQHqDghFp8oFAodWIUZHygUDCCIyxpfKBQGDmnzEk84FAOT25siP6gUBwCcXSbvqBQIpRy9KW+oFAg2bOcqr6gUDLt9GSv/qBQAs69jMGAoJASdf78ykCgkA/ygI0VgKCQO5rBlRtAoJAUs4QdK8CgkDkbzlVEAqCQHmkQZVECoJAkJZFtV0KgkDxok31kAqCQLapU1W3CoJAwK11Fu4RgkAO34N2SBKCQBQexLc/GoJATkDSt5kagkBr7wZZRyKCQAZdFTmjIoJAlYNGWjoqgkDJxUkaTyqCQIrb6tpQLoJAA9SO+2QygkAzm5r7rzKCQEZiy7xEOoJALILRvGs6gkBKBtfcjjqCQMrkkUBPUoJACArhYaVagkCqu+cB0FqCQOeoESM5YoJAhjgcY3xigkBVtCeDxWKCQFlYM6MPY4JA/rpSpDVqgkD36VgEXWqCQBG/YOSOaoJAeV1qJMxqgkAYF/QkOW6CQCFklUU8coJAVIGjJZZygkAHk6zlz3KCQMFgNmY9doJAJ/zQ5hV6gkAaWt2mZHqCQPTi4YaBeoJA03Dmhp56gkD2JBtITIKCQIVUI2iAgoJAyOJfKWCKgkDCEWaJh4qCQHhFa6moioJAZEu2iuSSgkAFptzrNpqCQPxO+WvtmoJA/7UnDXOigkAuO54PIrKCQPL6si+msoJAKyP70M+6gkC2gCvyYcKCQK8XPlLYwoJAJRlDMvjCgkDwf18zC8qCQEtxgxPwyoJAWx+PczrLgkDzd640YNKCQF5St5SY0oJAF2nAdNLSgkDPZcaU+NKCQApu0dQ+04JAS7zv9V3agkAdQPS1etqCQEcCAJbF2oJAPZM0d3LigkCKkDxXpeKCQGurQjfM4oJA4nVIF/HigkATzHAYUOqCQLjTeZiJ6oJA4mF/+KzqgkAL561ZM/KCQJ3Fs7lY8oJA1V25WXzygkCEwMTZxPKCQHBp9dpY+oJAg8b+epT6gkA/GQd7yfqCQNpjO5x0AoNABN0MfaoHg0A/C3j9VAqDQPSMhl2xCoNAO5a63loSg0AYNsn+txKDQDa0Zt+iFoNAllkS4Ocag0Clv06hxiKDQE7GecI2KoNAi4O84z0yg0ApcvwkMzqDQOkEI8UoO4NAXiArZVw7g0Chzz2GMUKDQAXzTwalQoNAqy5fBgZDg0D/84mHdEqDQBlWk0ewSoNAAsybJ+ZKg0Bw889okFKDQA/c1Qi2UoNA3pbZyM1Sg0AFXN4o7FKDQAnM48gOU4NApncM6m9ag0BiyhTqpFqDQH3kTgt1YoNA8f9Wq6hig0ARZ2CL5GKDQL3dkEx3aoNA8CXOrVtyg0CFdNmto3KDQHXv4a3ZcoNAGu4TL3Z6g0BRbBYPhnqDQHF6JI/feoNANqOwD1x+g0CV+lLQZYKDQGT4bbARg4NA+buS8VmKg0BnVKox8IqDQAJR1RJgkoNABl3tMvmSg0BJGxH0OpqDQFNgL7T7moNAn6SylD+eg0CUVVJ1OKKDQN5KYbWXooNAFQOktp6qg0AS9vKX87KDQMp2I5mGuoNAZsouuc66g0CXdzf5BbuDQDQjYBpnwoNA6opruq/Cg0C9tXQa6sKDQM0vevoMw4NAYUyamzfKg0AN5qQbe8qDQO0Aq/uhyoNAvLuuu7nKg0B/+bMb28qDQO/GPDxCzoNA5hvoPIXSg0AX4/M80NKDQLknNl7U2oNA2ec6nvLag0AJcmkfeeKDQLK1cb+t4oNAKg15f9zig0CsMoFfEOODQN8stYC56oNAm/K7oOTqg0AZO/phz/KDQBbaBWIZ84NAfRY9Q9f6g0A5u20DDfyDQHnraeRSAoRAeZJuhHAChEAZVn9E2wKEQDKVrkVmCoRAbdyxJXsKhEDu57ZFmwqEQBto0QVEC4RAP7T5xqIShEDxxQKH3BKEQOTBPOirGoRAADJ56YoihEDDiYEJwCKEQApuwKquKoRAbrbHCt0qhEAgmgTsvjKEQEeTD8wEM4RAyMlDba86hEBbG0jtyjqEQNqW3G18PoRA5TmAbo5ChEBAtIaut0KEQNv+us9iSoRAH5wIMa9ShECG7YpTqWKEQLdmjRO5YoRA/sah0zpjhEDxzc1UsWqEQNE23XQTa4RAKjjCtcVwhEC5nlbX1HqEQAcgiZh0goRAhQmSWK2ChECsqaHYEIOEQNS9GtkThoRA3BQVG6yShEATEG88R5uEQPhLkx2MooRAWT6YnauihEBtKKMd8aKEQL3A3x7RqoRAz1E0n+ushEBbhaCfnK+EQDsUEABjsoRApu4YYJuyhECP3VkBl7qEQPciaOHxuoRAHl2GghDChED7FwPDKsWEQD6gHKWJ0oRAwGwpJdvShEClzULm2tmEQL/wUwZI2oRAJEhsBuPahECreK6n5uKEQCdwdGkx7oRAJic6ahzzhEChTXzLH/uEQKquuGz+AoVAP3DCjDwDhUAqcBgtYAWFQIw73w1SCoVA0W4FTkULhUCuwAouZwuFQJbFLw+xEoVAtJc+bw8ThUAIJ0hPTBOFQD6/Te9vE4VAwD9sUJAahUAUtXJwuRqFQFhxexDxGoVA7OEMMY8ehUCKcRdx0h6FQFX8vfH2IoVApSSw8vwohUBO/fdyxiqFQCkZ83MFMYVAzOw61M4yhUDJV0BU8TKFQDoJffXROoVAeMa/FtlChUAu9Fz3wUaFQHooNjmHUoVABSJ52o9ahUAGGPIakl2FQMJQ4H6ZdoVAON2df1B7hUCPn8+A64KFQJw20aD1goVAVNEEYpyKhUDiNBMC+IqFQA02F4IRi4VAF98iwluLhUAmAkhjppKFQDawU8PwkoVAR5Jlo2KThUAlR3qkRJqFQJEHgERpmoVA+zPIJvGohUAF/xQn2qqFQB5NVcjRsoVASceRCbG6hUA5XJ3J+rqFQP7mzQqOwoVAoADhqgfDhUAE8gfMXcqFQBkvpmxNzoVAiQG5bSPVhUDMRKAO5NqFQBAH40/r4oVAZNseccbqhUAZnCVx8eqFQFqvanIH84VA8n6n0+j6hUDLlK2TD/uFQDZvtvNH+4VAoX/g9LEChkBPO+fU3AKGQK5Z+TRQA4ZA1DocdowKhkCAuiM2vAqGQJoCKjbkCoZAkx1nd8cShkARMp+4ihqGQC6Rr/jyGoZA3ZHoGbwihkDd9DybMyuGQKIbgFw9M4ZAF22pnaI6hkClXbkdCDuGQDc8v30tO4ZAcNPmvodChkCiQfde8EKGQBZD/D4QQ4ZAOTYpoIxKhkDfpT4gFUuGQOEbfmEHU4ZAeJFUAl1YhkDu0rzi9FqGQG0VwQIQW4ZA6J3VwpJbhkAvcwPEFGOGQNuzEuR1Y4ZAOGoYRJpjhkAFBTvF1GqGQIA/RkUca4ZAKINO5VBrhkB2J1tloWuGQP76gib9coZAIf3AJ+Z6hkDqP8anB3uGQAOrvSgvgYZAe7z5qK2ChkBXtQMp7YKGQEpsC0keg4ZArDBE6uWKhkBXD4Grx5KGQEWD+2vTlYZApZ/EDNSahkBqGcmM8JqGQDWoYO9xq4ZAWVGjkHizhkDUp8zx3bqGQN2p05EKu4ZAAN+ssnHAhkDPJrJSk8CGQPAAulLFwIZADpdWlAjLhkDe+F70PcuGQBQ4aTR/y4ZA9t8UuN7ihkDZr1J5xuqGQITWXtkT64ZAMkqWGtPyhkDvtqHaG/OGQI1SIF3+AodAPKFivgILh0D9/qR/BxOHQBRq4WDmGodAwyXoQBEbh0CyciRi7yKHQH4RZmPvKodA9Ad5I2grh0BBFq3EETOHQHj8u6RwM4dAVMPaxZI6h0AABOrl8zqHQKuD8aUjO4dAXe71xT87h0BNaf7FdTuHQN+8HWebQodAIJpBx39Dh0DSfX6oYUuHQIYBqCnIUodAh0S/SVxTh0BgN+tK0lqHQJcD92odW4dAidQBS2Jbh0AspkVMcGOHQO3lZc2baodAGquyzuJyh0CEtiRRdYKHQA/0ADUKm4dAc89DFhKjh0CXEHq3yaqHQCVahZcRq4dAaB4RmIuuh0BNmMK49bKHQEXnBXoAu4dAwPTGPejSh0DSQ0Fgr+KHQJShgyG06odAd/7CwqXyh0DrkgMkn/qHQJMQTOXKAohA+gSdSwMriEBrWCYOKjuIQC7KMe5yO4hATZti7wdDiEBha2qvOUOIQBMKdU99Q4hAmHyoECNLiECNJ+Cx41KIQLMhbbQhY4hAK7O0lUdriEDZpUddgpuIQJF7VD4yoohA3+rBP0mriED6e73EA8uIQLML/2UD04hAra0D5iDTiEAF3AQr//KIQI/cA5DPEolA6pkh8IwTiUAUrFExHRuJQHyjVtE8G4lAFeaRUhQjiUBiS6YyliOJQDGK1NMaK4lAeywiVWcziUBHL1HW8DqJQNsGKFpjU4lA0dZU295aiUDAV5d85GKJQJoA2b3kaolAckB1AIR7iUD6vsDhwoOJQPp28UJXi4lA7o+dI5+PiUBKY3ElQpuJQJ7powbioolAQFyyBj6jiUDosOZn6aqJQKgpCkjLq4lAOXI3yUmziUCac03p1bOJQJZIeopRu4lAJX68S1XDiUD550ozc/OJQJ7QmHTB+4lAgMsFtzMLikDLXkKYExOKQEIVf1n0GopAS6rBevoiikCHBWDb6iaKQHh+HxyuK4pAg/iuvD8vikCbMlTdWzOKQPXd8d1HN4pAMTmQPjg7ikAGhpX+WTuKQOn8119fQ4pAXR4aoWJLikDc7R+hh0uKQCs0HQZNa4pAb9FqZ5lzikADMiRLUIuKQPyAZwxbk4pAm/ZujIqTikC4mrENkZuKQKgb9K6Wo4pA9R42MJmrikB4O/T4ROOKQErqJzrs6opAL+ty+yfzikBng3ibS/OKQLwWoftN9IpAL9eSAMoTi0CNrdXB0RuLQLMB9yIEI4tAvTcEQ1gji0B7Ow7IbkOLQKGvVa5qa4tAF4NJT3txi0ABMN4wjHuLQHjsVJM8i4tADN2V2LCsi0DiPOJ6U7uLQPYghbtgv4tAiYYkvFfDi0Aj5yVBN+OLQNg6aMI764tA2Wm2w4vzi0C9M16n0gqMQNb5PQt+I4xAgDrxuneHjECooJJ7e4uMQL73M9x+j4xAyIDUHH2TjEBzS3Zdg5eMQAHxpsjE3oxANJL2S9rzjED99Dgt3/uMQAaKe07lA41AC7qTE1YkjUCPUby0tiuNQEl31jRdLI1AtsP/VcIzjUAahT93tjuNQLuCNBxHW41AnIZhgTx8jUCF/waldJONQD1BPwY5m41ATOL4kITfjUBT0f2UHPmNQL7H9jcKDI5A7RbCireDjkDhB9wtd5eOQP6/583Bl45ART8tvl7/jkA/L/YDNSSPQAeOAolaRI9A9pcniqRLj0BV39oxrXyPQHNIRJOqhY9AVZOnmPmnj0CsKyw7AriPQG/hor9u1I9AX2LlYHTcj0BY+8fk0QmQQBckgs8gTpBARakmcDhSkEBLLceQNlaQQH4xJjUMcpBAPezHHKWikECsAnRgB7qQQDG4vkFBwpBAbumBpTbakEDn7ZkI6u2QQJxMzqmV9ZBAxJGZCqT6kECRLytLQ/6QQAzuYKz3BZFA+Eyn7RUOkUDIxE4TFzKRQIHKz9s9aJFACH7R/QR1kUBw3cvBWY6RQIkkIudVsJFAvnJUiVK+kUCUxZPqQ8aRQLpQb+u5y5FA0YaZNXQMkkBB8Yha4SuSQEU8VKDGUJJAWZKKoCBSkkDjODohf1aSQKttsCMsZpJAOyRS5DFqkkA5ytRHjICSQLkxoKn5i5JAssiyCXCMkkAKerhJlIySQBCF8gpklJJAYtVIq4mWkkDCRsCNPqaSQNFZaS5zqpJA3wLU0TTAkkCgymtS+8OSQJQlxPItxpJA1g2s1FDSkkARZJK2ad6SQHyYGJl87pJA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Tpg38q7CckAHIj/y3sJyQKz7e5PAynJAcgKC8+bKckCIgYfzCctyQBSrsZR00nJAGmbH9P7SckA+I9O0SdNyQHXmB9b32nJAopYJlgLbckA0dQ/2J9tyQH8cFfZL23JASx9Ed9XickCat4B4tepyQAIihDjL6nJAajOMmP7qckB9LsPZuvJyQGrGxxnY8nJAhB3fuWzzckAffvcaZvpyQJrsCBvV+nJAq6tAPJYCc0AFmUWctQJzQFbSTJzjAnNA/pl/HYUKc0AY/IjdwApzQBt9uj5aEnNAXy7RvuoSc0A9uWb/ohZzQBrMRaGNInNARDVWIfYic0B16JgC/SpzQAOnvSNFMnNAezLLY5syc0AkN9tjATNzQD4196OzM3NA8OAOhag6c0BAJG+ma0NzQOj2k0e0SnNAg4mXB8tKc0CnRqPHFUtzQO8+q4dIS3NA8e5YiJpPc0BDXdFomVJzQF2L1KitUnNAl9LXiMJSc0DKu9/o9FJzQJDC5UgbU3NA83OpaflXc0C9aRAKiVpzQFP3E6qfWnNAunsaKslac0D7biLK+1pzQOvPJwoeW3NAFijeKqdfc0Cqek0LbGJzQL2jUCuAYnNAlixVC51ic0AEnFjrsmJzQGyTXYvSYnNA7hFhy+hic0CchZgMqGpzQNRRpCzzanNAqLlcbYlvc0Cf1uJt33JzQBIRvQ5NeHNAPh4eD7d6c0BR7iXP6HpzQO2AKY//enNA5jNa0JOCc0C8812wq4JzQMb1ZFDYgnNAeP6WEXWKc0ApvHOy8o9zQJsP5rLKknNARFPuUv+Sc0ACyPKyG5NzQD2C9LImk3NAbgExFAabc0CkuXMVDaNzQC+ztrYVq3NA54t3t+Gvc0Avrv43PrNzQLTHNpkBu3NAeFJn2pTCc0BCr28aysJzQNc8c7rgwnNAZWx72hTDc0BlJKw7qcpzQAC3r/u/ynNAxkq3O/DKc0BuAb77GstzQCtl8rzG0nNAQeT3vOnSc0BvSg+9ftNzQFCJLB6X2nNAuJo0fsrac0BOKDge4dpzQFeFVT/64XNAUbh6H+fic0AQe4i/PuNzQATZlH+N43NAyOG1AL7qc0Ds97wg6+pzQIEsxWAf63NAW+YboUftc0CaN+7hgvJzQN+A+GHE8nNAvukHgibzc0DbJT4D3vpzQPjdSaMo+3NAPENyBIgCdEBMC4Ek5gJ0QCiRjIQvA3RAET22BZcKdEBFDLultQp0QLDS+uapEnRAMVH+JsASdEA0rTqonhp0QA2pPaixGnRAzcRGqOsadEBOVHapeCJ0QMCbiykAI3RAMXK9qpsqdEDWotqKVSt0QEtN/yudMnRAz1ULzOkydEDz3hAMDTN0QLLGE4wfM3RARwxIjco6dEC1e0tt4Dp0QPBpU+0SO3RAGSOIzsBCdEBAj5HO/EJ0QFRFls4aQ3RAaPB6EClPdEDH2lhSDFt0QI1LhtOLYnRAn1XOtLRqdEABu9FUymp0QKed5fRIa3RAhXsOVqtydECzOiG2InN0QL08KFZPc3RA4FRKl4Z6dEDZ0Vk36Xp0QB4bZLcqe3RAa+RlFzZ7dEAzD4P4TYJ0QPokmvjggnRArxmneDODdEAzTeKZCot0QAoN5nkii3RAvHfqmT6LdECY9B776pJ0QMkUJlsYk3RAHXApuy2TdED/SlmcvJp0QHBzs91Yo3RAgLDbPreqdEDkn+c+A6t0QNGq6p4Wq3RAp8kjgOCydEC9fC8AK7N0QEPeNgBas3RA2NNGoL+zdEDKPmChv7p0QDhva+EGu3RAWwmd4qDCdEDWQ6hi6MJ0QBtzryIWw3RAWFPMAs7DdEByaeej2Mp0QEvY6MPhynRAoKdVpJbNdEBkLJGkEc90QEHcG8WE0nRAtZ4oBdbSdEAXkS2F9dJ0QDFMMqUT03RA1/o/xWrTdECSg2lm0dp0QMmObSbr2nRAftx1BiDbdEAGTLBH8uJ0QLnQtyci43RAr/fE53XjdEDSKerowOp0QGCy7WjX6nRAUDwHCXrrdEDql5WJBO90QBZqHWpl8nRA+YVJSn7zdEBGGKjMlAJ1QM21ruy+AnVAGC/oDYsKdUC3/ertnAp1QKbR7k21CnVACGAGTksLdUA3Y5suAA91QOewLc+jEnVAH8tCLyoTdUBYLEnPUhN1QFWXTk91E3VA09MvkA8ZdUBSq3OQvxp1QBcAgzAhG3VAVkSNkGIbdUBZJ5FQext1QPjn7fDJHXVAiGO2kcYidUBCYLyx7CJ1QFW9xVEoI3VAf+n4UswqdUBRFAKzBit1QDABPLTVMnVAGl1B1PcydUDzckeUHjN1QFWoYzTSM3VA8512Fak6dUDliIS1ATt1QEMrwfbhQnVAQ/IC+OJKdUD1dgrYEkt1QEfKFJhUS3VAhjHLGN5PdUB3ID2Zs1J1QMvjTPkXU3VAPcd0+RVUdUDhTona9lp1QFM0zPv+YnVAjJXSmydjdUCTdd3bbGN1QKCB+Dx3anVAEooVHTBrdUDdm1U+JnN1QP51XT5Yc3VAbIxlvotzdUCiRKi/knt1QKLI0qD/gnVA4Jne4EqDdUA6+uFgYIN1QKzZ6uCYg3VAHeADYpaKdUAGrweirop1QDeQFmINi3VAb88gok6LdUDvnUhDqpJ1QGSUWwMjk3VAE/dmg2uTdUAj/m1DmJN1QAArfkP/k3VAIFGLJLGadUDLd5eE/pp1QOn7nKQhm3VAOYXIBZWidUBD+s3Ft6J1QKfP1gXwonVAkCvcJRKjdUD/HO/FiqN1QHda88Wlo3VAt71cKAGzdUDhf2gITLN1QMQkd0ips3VAwFKfSQe7dUBldKuJVLt1QKg766nqvHVAHsHVCsDCdUBVjeEqC8N1QNpnIez/ynVAXOYkLBbLdUCWjF0N3dJ1QK9hZe0O03VAV3FnDRzTdUDXQG0NQdN1QDCCtU5r23VAwAq5zoHbdUDPYeTv8+J1QNPR6Y8W43VAjyTyj0vjdUD2jvVPYeN1QBZgJlH26nVAfkw50W7rdUBKyz1xi+t1QLI1QTGh63VAD5VmUu3ydUCrdXNSP/N1QKj6e5J183VA3Dx/UorzdUBxV4TSqvN1QL6vojPK+nVAgGCms+H6dUAwqa5zFvt1QBlTvdNz+3VAgHXx9B0DdkDYs/gUTAN2QEYj/PRhA3ZA9cT/FHkDdkA4RCs27Ap2QN4daNfNEnZAzX5tF/ASdkBId+OZmyJ2QNlv7LnUInZAorLxOfYidkCyVyaboyp2QAePn3unLXZA4wppfKoydkCOMXXc9zJ2QDBwfVwsM3ZAfsaAnEEzdkDwgJQ8vzN2QMy6sX3XOnZAzO63/f46dkCviNQdtTt2QPnJ6D6UQnZATXP13uRCdkB0Uv3+FkN2QMLrF1/AQ3ZANvopgJFKdkCngDeg50p2QJSLOgD7SnZAxB5AgB5LdkCDf3vB9lJ2QBMIf0ENU3ZA1biCwSRTdkD2rI2BalN2QAl9lUGcU3ZAMB2lwf9TdkAoPkpCG1h2QJGpuGLaWnZA9Uq7IutadkCxEMJCFlt2QOXfxuI0W3ZAc2jKYktbdkDXcdkiq1t2QJ5xDOPvXHZAlFkhA3VddkDxFPajv2J2QAt3/2P7YnZAytEABARjdkD71wSkHWN2QMFRCSQ6Y3ZAnn4ZJKFjdkBjYCqkDGR2QA1Fz6QmaHZA3k5HBSNrdkBlX0xFQ2t2QIZTVwWJa3ZA6EVchahrdkDaPXdmsnJ2QF6ffmbhcnZAx8qJhihzdkARjJJGYHN2QHLxleZ1c3ZAoGKfBrJzdkByc6Wm2HN2QO0gr0YWdHZAPJG1Rj90dkAahcLn73p2QMbqxucLe3ZArcvUR2R7dkBLqwPp7IJ2QOmTCYkSg3ZA6ccPCTqDdkAGWybJyYN2QLPAKsnlg3ZAieg6qUyEdkAAjEdK+4p2QNkuT+ori3ZAhb+Ca9KSdkBDNIfL7pJ2QMXmkIssk3ZABk2XS1WTdkBei55rg5N2QBqfrsvpk3ZAeKO9a0mUdkCR0cCrXZR2QDaJvIygmnZA3w/cTGmbdkAz+vutkqJ2QCLO/w2ronZApCcObgajdkBK1huOXaN2QF2mI06Po3ZAjhQ07vejdkBgQVhvPKt2QI0cibDRsnZAihSQEP6ydkBjt5ewLrN2QAuipPCAs3ZAdbFjkUG4dkA484dxKLl2QP5P1REVu3ZAKEbncYe7dkD12zqym712QPHjAnOVwnZAbNAEs6HCdkC3OBIT98J2QGIrGPMcw3ZAI1Tp01DIdkCMi1F06Mp2QKZvavSGy3ZAH0Ku1DbNdkACT8kU4812QFUimtUU03ZACoqldV3TdkCtrqo1ftN2QD80tTXB03ZAjNrc1hvbdkCPAPi2yNt2QFGZE5jW4nZAZ6UaeAPjdkCRgSkYYuN2QCcpMHiM43ZA2HBa2ffqdkChn5Y61fJ2QPWHm3r08nZAMz+k+ivzdkDuvNt76/p2QLri5Lsl+3ZAHAAZvc8Cd0DvtyP9EwN3QAzjLb1UA3dAHrgEvqwId0Cjo1l+yQp3QMRJW/7TCndAIhpkHgwLd0BJ/6XfDRN3QJ1aqT8jE3dAoqTboMEad0CMweggFRt3QMAD7OApG3dA+CKLIR8fd0D0yRmCqyJ3QMNFJaL0IndAWFU4Am4jd0C1DO4i8yd3QGJOaKP9KndAWts4pC0wd0BU5rSEQzN3QJzevER2M3dAOBjFpKozd0CpasxE2TN3QF1H8SUiO3dA5qX/pX07d0B0si0HAUN3QGDXMycoQ3dAUTg5Z0pDd0CIXUDnd0N3QGfrROeUQ3dAfnt2qC5Ld0DrBH1IWEt3QNt/hUiOS3dAD2C2qSNTd0Bd0LypTFN3QB8OwgluU3dAjsDcCRhUd0Bq7ewJf1R3QH0u74rrWndANSADi2pbd0C+vQmrlFt3QAL+PCw5Y3dAZtNFbHFjd0AFSU3soGN3QNSqVUzWY3dA6PxszGpkd0DLU3LMjGR3QD54aC2sandAvZV3bQxrd0DXuIiNeWt3QDA/Ma6qb3dAr9Cpbqpyd0AqWb4uLXN3QIZGw45Mc3dAPK7OLpVzd0CM59Uuw3N3QO605c4ndHdANKD3D/h6d0CcMw8wjnt3QL/cUdGUg3dA9udVka6Dd0AUbFux0YN3QMAFZjEVhHdA5lVoEoKKd0C/a27SqIp3QOwHp3NvkndAdL+wU62Sd0DpTbcT15J3QNNQwdMWk3dA0oTHUz6Td0CSE89zbpN3QO0A1NONk3dA+I2TlFGYd0Cku0T2F6N3QPRecxefqndACGOBV/iqd0DIZIeXHqt3QDPdvZjXsndANYHJuCGzd0AsAdLYV7N3QHJTVxtlw3dAO8GLHBHLd0AkPc6dFtN3QAdV2/1p03dAf6zivZjTd0DtehufYNt3QKYeJl+k23dAxbtQ4BHjd0Cb42DAeON3QLa4aKCq43dA2zQzAbTod0CRmYqB4Op3QO9pk6EY63dAmOfbYkTzd0D8SeaChvN3QFC2FaQS+3dAKXMgBFf7d0BdFFnFHQN4QACqE+bBB3hAvaSL5r0KeEDbqqDGQwt4QDHg0OfUEnhAC/bWp/sSeECtweAHOhN4QIpH7GeDE3hAxLcDqBgUeEBLLhGJzBp4QMPeE6ndGnhAtlYjKUAbeEDReTRJrRt4QMmUcYqQI3hAEQ+JCiYkeEDj/LTrmyt4QIF+XkzTL3hA/X77DLszeEDMrP3syDN4QOQ6FI1YNHhAYZUXDsw6eEB1QCruQjt4QH/pNS6NO3hANSbkruI/eECoOl4P7EJ4QPIVao83Q3hA6ZVyr21DeEB7G32vsEN4QDYvjQ8XRHhAMZKZ72VEeEAdXqSvqkR4QCknqPAgS3hAcAWt8D9LeEAjcLEQXEt4QItNs/BnS3hAaw++cKxLeEBMWGKRwk94QDNJ7PEwU3hACAnw0UhTeECu9vWRblN4QIojBpLVU3hA4mENsgNUeEBdaBKyI1R4QBliH1J2VHhA/NAjs/BaeECQHy+zOFt4QEkRQ7O3W3hAUqJmVPhieEDAuG7UK2N4QKO2eHRrY3hAgzmLVOFjeEAptJL0EGR4QLfwp1X2anhAsapm1rRveECfUucW6HJ4QAQo8FYgc3hADir39kxzeEAYLP6WeXN4QPtDC/fMc3hAaXQWNxR0eEDt8TsYYXt4QNbrbtkDg3hAaLBxeRWDeEBoynQ5KYN4QKIReBk+g3hAnwl/eWqDeEBVpZCZ2oN4QLkjuZo6i3hAGkrEmoGLeEBvTMyatIt4QHASXttUj3hAm7/w2/qSeEB7dgk8mJN4QBCRDry4k3hAPY8ZvP6TeEAmRjVdDZt4QBlccn7wonhAu8OOXqWjeEBgsZQey6N4QKz/nr4MpHhAwbTFX2GreEDKLwXBU7N4QEO7EgGqs3hAcPmXw7bDeEBvKgHmENN4QDEPC+ZP03hATlQYZqTTeEDAgSomGNR4QBS2NEe32nhAdYNE5xvbeEC2QkYHJ9t4QDfHg+gM43hAROuG6CDjeECBbonoMON4QIx0rwgj5HhA7MsjK8TzeEC0t0hsDft4QEZogu3aAnlA2GCLDRQDeUCauJMtSQN5QCyxnE2CA3lAaoKojc0DeUCkeAXQ2RJ5QLpuKHC4E3lAnfkz8AEUeUCzEkgR4Bp5QOvtZNGXG3lAHs6VMi0jeUBurqHSeCN5QHXnp3KgI3lAkGO08u8jeUBfhsSyViR5QNDL1dMiK3lAFKLhM24reUB4d+pzpit5QBpfErUCM3lAmC4YtSczeUCIAhwVQDN5QNwEJBVzM3lA41ctda4zeUCvlzl1/DN5QPpyRfVHNHlAjMRJdWM0eUCFWVh2Hjt5QGQ1ZrZ2O3lA5lyJt7RCeUB0M5Z3BkN5QP1Dm7cmQ3lAiJCfF0JDeUBHU623mUN5QEvDsle8Q3lAohu9N/5DeUA6qOJ4S0t5QL5oH3osU3lAYI0kOk1TeUBKNzOaqlN5QIdHN3rEU3lAAnlr+25beUBzqJjc7GJ5QN4PoxwvY3lAoNqpXFpjeUCafK7cd2N5QBCAiX3qaHlA+l2eXW9peUC9O9W9zGp5QKpg293zanlAApTw3XpreUANCBg/1HJ5QHnIHd/4cnlACGskHyNzeUAY2jffnnN5QMM/PN+6c3lAESl7oKl7eUAL0bnBloN5QE7S9KJsi3lANEAE486LeUBJY5/Dqo95QMnPIqTvknlAr/45RIOTeUBKxUOEwZN5QIUMR2TWk3lAlflKZO+TeUAjK26lLZt5QNxBd4Vnm3lAA1WFJcGbeUD1dbRmS6N5QPxVv6aQo3lAuFHnZ+2qeUB2ofbnTqt5QDZBKsn1snlAYB05aVSzeUDkJUUJobN5QHAZTgnas3lAtDBtKv66eUDhSHvqV7t5QMfqkKrhu3lAXG+9S1vDeUDEddOL58N5QChRFm3vy3lAH+GajTvPeUC9YkTuctN5QBqddC8E23lA1mzUcMTjeUDmc9sw8eN5QMml61BY5HlAFmgx09DyeUB0Hjcz9fJ5QKu2PNMY83lAmMuYVMH7eUBX+M0VcgN6QEPe25XKA3pAyMzkdQMEekDSzusVMAR6QK77+xWXBHpADD8DVsUEekBjRwCXEAt6QNgyITfiC3pApAFKOEQTekAfvmR47hN6QCUrcZg9FHpAFWeB+KQUekBSHIYZIRt6QM2vjPlKG3pAieiROWwbekCMjJ1Ztht6QD4twxoEI3pAnIrNGkYjekCMeNQ6ciN6QM1r3NqkI3pACiPlWtwjekCTM+qa/CN6QLMn9VpCJHpAyiYGvAwrekCdJUecqix6QOOOSR0YM3pAWDdTnVUzekA+/l09mjN6QK/3aX3mM3pAXlp1/S40ekDgZXodTzR6QIf4O74fOXpAAR4Tv3k+ekAAluAflkN6QIsW6//YQ3pAYHQcgXFLekAQCy6B4Ut6QAxeS2L6UnpA331ioo1TekDo+KEDgFt6QDqLpGOQW3pA2+Ovo9hbekCg7NAkCWN6QDIo8WTWY3pAjbEIRWxkekDbaFynPXN6QKY1aoeVc3pA8WlxZ8NzekDrmHfH6nN6QM2WgWcqdHpA2j6vSKt7ekBSI7jo43t6QJxz3akvg3pAEY/lSWODekD0jO/pooN6QC5792nVg3pAFOkGqjeEekB8OyLLQ4t6QHVfNgvEi3pAaExfzCaTekBk0WcMXZN6QEENiawwlHpApjuNTEuUekAG75ksnJR6QI7YpS1Gm3pAQwyrTWebekAwvrJNmJt6QDfJ7A5oo3pA/ELxjoSjekDc0PWOoaN6QKDDMtCDq3pAni44UKarekAS10HQ46t6QJNxY/EXs3pAFTN+UcKzekCHrplRcbR6QAdIUBL8uHpALqH7U53DekDbohLUL8R6QLfPItSWxHpAK7UglefKekDkwDdVest6QFHdeXZ903pAO6GLlu7TekCdVJh2P9R6QG769LhJ43pAzFf/uIvjekDGuguZ2uN6QAcwI/lv5HpA11IzudbkekAqlk564ut6QOwUZ5vc8npAomaO+9bzekBUH5xbLvR6QEd9qBt99HpA8IG4G+P0ekDOtL1cYvt6QAYUBf6GA3tApxMV3uwDe0AMXBw+GwR7QNt+LP6BBHtAtLtCv20Le0B5iYoglRN7QNqvlSDcE3tAT7GaAPwTe0BTrqGAKBR7QC/bsYCPFHtA163WIdgbe0DK6AgjdiN7QL0SD2OdI3tADmYZI98je0CZcyXjKyR7QDUIRMRMK3tAXyNLBHore0ByQVwE5yt7QMlChqVQM3tAPl6ORYQze0Dqnp1l5TN7QI9Nq4U8NHtASm7IJlQ7e0BmaTBH6j17QITVCGhMQ3tAq3UY6K9De0BujihoFkR7QCZOUQl4S3tA2MmB6gpTe0AFb5GKblN7QKuQncq7U3tAIMaoKgNUe0DlqdTLeFt7QJj/XwzwXntAHC4RTVhje0DOJRdNfmN7QHq/Ic3BY3tA/8ctbQ5ke0DBSmUOzmt7QKZSg2/rcntAGCeaz3xze0DaJaePz3N7QFsuD1Iig3tAcuEa0myDe0B7yR6yhYN7QILDLLLeg3tAF585kjCEe0Aa0mGzjot7QIZtcnP4i3tAV+ifNHiTe0CZHr/0PpR7QJhu41WEm3tA/HfyFeSbe0D8LyN3eKN7QGc+MlfYo3tAdys2V/Gje0Cof0M3RqR7QCC7Q9ilqntAIqJmGISre0ChhrdZ5bN7QEyZ+pruu3tAnSIm/GHDe0CnyzE8rMN7QL3xO9zsw3tA92FTHILEe0Ba4Vl8q8R7QDSY/Jy3yHtA4eRoPWnLe0ARxnf9x8t7QC97z332zXtAhkunvlTTe0A3tqvecNN7QFUVvB7Z03tA54DDXgjUe0BFEtTecdR7QDKq2B6P1HtAPmjqP17be0Cjlu7feNt7QKLQLgFw43tA1iw1gZjje0DpfkwBLeR7QDu4UwFb5HtAMfljgcLke0BuAqyDSfN7QJJMuSOe83tAWgK9w7Xze0ADrtFjOfR7QM9G2cNp9HtAZDzpY8/0e0ChWfqEmvt7QCX1QabAA3xAFgxdJm0EfEAsGn8npAt8QOgvqqgUE3xA3nC6KHwTfEDx58aIyxN8QHZy4uh6FHxAynw/q4cjfEDt4E8L8CN8QA49Z8uEJHxAhS0STMUofEDkPunMHi58QDvQyG2uM3xAeS7WjQM0fEBbLOAtQzR8QOT97M2UNHxAE0s+0FZDfECOLE7wu0N8QKgbWZABRHxAe2BlsE9EfEDYMonxkUt8QJLWk7HVS3xA3rDB0ldTfECdBgv0iFt8QBV+TxWbY3xA6KhYddVjfEAI/Jg2zWt8QIZauzcGc3xAS0vdV95zfED96mkaGoR8QH+SgbqwhHxAE6bKXD6TfEBPTgedwJR8QPb7Nl5OnHxAJ3tzvy2kfECoIotfxKR8QHf3kd/vpHxAnpWdAJirfEDpIqBAqKt8QIBa6aHYs3xAbib0YR20fEA29vrBSLR8QOsECwKvtHxAwS42AyC8fEBFOV3EdsN8QFPFbMTZw3xAiupzRAfEfEBF/oOkbcR8QJ08i8SbxHxAmoKbZAPFfEB5taClgst8QPfy7EbG03xAmdj5ZhjUfEAnIgVHYNR8QB+8ECeq1HxAX3AgJw7VfEBEIV5JU+N8QCQXb0m/43xAaEZ2Ce3jfECYZn1pGuR8QCutj8mO5HxAa4aUqa3kfECiK6eKgut8QN30uSr663xAzJbSK/XyfEBE/eqLkPN8QBoaCUxQ9HxA0vEZjLv0fECBIjqt5vt8QKvQfG7tA31Ah0K/r/ILfUBZvexwchN9QBGvAHHxE31A5D55c60jfUDaMYCz2SN9QJBAkPM/JH1AfMTLFBksfUDeQ9J0Qix9QGxZ19RiLH1AxVPpdTMzfUCphfmVmjN9QFI8AFbFM31A56QOFiE0fUBU1RlWaDR9QLYXQzfNO31A/UNRdyc8fUDs2Fw3cTx9QE7NfNiaQ31AlWyJOOtDfUBN07Z5akt9QF1469oXU31A/5H+epFTfUDiPku7eVV9QGk5g32aY31AQFahPVpkfUAlruP/vHJ9QOWDIcBGdH1AzroxAK50fUAEVVLB23t9QI9dpgJRhH1AMUOzIqOEfUCPqBLlvpN9QH4JGCXhk31AqD4iJSKUfUDGaSzlYpR9QFFDMiWIlH1AG2FCxe6UfUDiHpsn4KN9QLJBq+dGpH1Anpq3h5WkfUBuvcdH/KR9QDB72AjFq31AtYPkqBGsfUBdfx2q2rN9QHAqMIpRtH1AZ8Q7apu0fUBNv0yKB7V9QHQRU8ovtX1AeUOdjMTDfUCTmrQsWcR9QNHEu8yGxH1A/h3dTbnLfUAecR0PsdN9QCUdIs/O031AwNg572XUfUAyK0GPlNR9QLPfZXDc231AWo2VMWrjfUARtqgx5ON9QJIpulFT5H1A7CfrcunrfUDZujc0L/R9QBZ0W9Vw+31A6UVp1cj7fUC79JwWcAN+QI1TrPbRA35Arke3thcEfkBGBshWggR+QCrqzjauBH5AyxDvF9kLfkAZ9PM3+At+QIT5Kxm7E35A0fYz+e0TfkCbYk3ZjxR+QN5Udxr5G35Ak3+lO30jfkAVgLg79iN+QBIFwXssJH5AurvHO1ckfkDgSSm+gDN+QBsiTf5kNH5Apdh4f9k7fkBa3rHAokN+QAX3LqN7U35ARuo2Q65TfkCO4j4D4VN+QDcBUsNaVH5AeLmAQ4RVfkDsqNclamR+QGD8BMaKZX5AVhL9hrZrfkAiPkBowHN+QINkS2gHdH5AOcxWCFB0fkCjwGIonHR+QJOuaUjIdH5AtxJ6qDB1fkCrS5GIxHV+QAu6gunFe35As/2Kifp7fkCjib9Kp4N+QO2n4uqGhH5AkKfyyuyEfkAMshZL0oV+QK8BBizGi35AXtcPzASMfkBYS0htypN+QPbaUq0NlH5AACtjjXWUfkCcJXNN25R+QMOGii1wlX5ARfqbTd+VfkAErJTuDpx+QOXJ2+8xpH5A7xnsz5mkfkDZj/Svz6R+QOnxEfHoq35A8mxRUtuzfkD2T1US9LN+QDomYXI/tH5AyBZx8qS0fkCny4Xzhrt+QNu6x/SIw35A93LTlNPDfkAW7OaUT8R+QMTyWVfo035AAhJv127UfkC5C9iZx+N+QKOB4Hn9435AiC7oWS7kfkBPafQ5fOR+QNCo/9nD5H5Alw1d3NLzfkA0YWj8GvR+QAoWeryL9H5AM7Wr3SX8fkB0RuEe2QN/QGtI+f5xBH9AitYS4HILf0ALIfnDRyR/QO4EAKRzJH9AEmkQBNwkf0DaFT2lVix/QIMreWYzNH9ABNOQBso0f0DWh/7oQER/QCoMFqnWRH9A3+50K+9Tf0DZ3oLrR1R/QD0nikt2VH9AmO+Zy9pUf0D9N6ErCVV/QMVVsctvVX9AM+7ICwZWf0CNkfpt/mN/QHdVDI5vZH9AVzEazsdkf0C45CauGGV/QC9JO6/4a39AAgeAkAx0f0CJDJOwhXR/QNVAmpCzdH9AxXyq8Bp1f0AU3cHxDXx/QDX8+zLeg39A5AUMU0SEf0DA5BITcIR/QPcJGpOdhH9AoDMfc76Ef0Ak4y+zKIV/QEv6c5WWk39AO56Q9UyUf0CcHZdVdpR/QL2eo/XFlH9AgYTqt0Wjf0BOuQSY7KN/QKhnEVg9pH9AzH0YeGqkf0DPByHYoKR/QOrcKLjSpH9AYKSROiq0f0Dv/K263rR/QOGWFb0uxH9A1JsmHZvEf0CZUYbfuNN/QCKLn39Z1H9AQgysH6nUf0BLaclAwtt/QIgmDGLJ439AlpgYohjkf0ByhjACseR/QKWGnsQp9H9Apcm15L30f0CiAtAFw/t/QJCyiMPgAYBAhouMQ/kBgEBvVdgEOgqAQCSvVCcOGoBAs95cR0IagEDjpWhHjRqAQDcBbKeiGoBABTfx5/IdgEBUFI7I2SGAQJXtkqj4IYBAr2mfKEgigEAK/qgohSKAQDPCzynaKYBAkh/aKRwqgECYPt0JMCqAQNkx5aliKoBAiNPoyXkqgEDPy/CJrCqAQPF2fOolLoBAgWwWS/oxgECbmhmLDjKAQAmxIQtCMoBAmwImi10ygECLYyvLfzKAQCedMyu0MoBAFRpXTPQ5gEDESFxMFTqAQPkxZKxHOoBALOdljFI6gEDsdW2sgjqAQLtKdCyuOoBAjkOSLctBgEDl6aVNSEKAQHoEq81oQoBAFSSwbYlCgEBG1/JOkEqAQPFNIxAjUoBAKNJfkQJagEAvC2YxKlqAQEaKazFNWoBAYWT98e1dgEDgupyS5GGAQFKAolIJYoBAw0WoEi5igEBpM67SU2KAQCOWdzNWZ4BAQhvosyJqgEC9ru6TTGqAQCTgM1VjcoBAR4l29ml6gECW/gbXAX6AQEfdudd0goBA/0PnGPSJgECo1fj4Y4qAQD6mE7kOi4BAwT08Wm+SgEBqgUT6o5KAQB3x0vouloBAPBZ1ezeagEAGzHgbT5qAQIDsgNuCmoBAehuHO6qagECP1hUcN56AQMfbsZwYooBAPFC1nC6igEBqp7v8VqKAQFkIwTx5ooBAbQP4fTWqgECKh/2dWKqAQMeXAX5yqoBAehwJXqKqgEA9uJP+FK6AQMOGMd8BsoBAJew0fxeygEAUm0P/dLKAQMNNc+ACuoBA52N6ADC6gEDA7H7gTLqAQMruhYB5uoBAIqUVoQy+gEBLC7dhEMKAQH/0vsFCwoBAw8rKIY7CgECbdVUiAcaAQI6FWKIUxoBAPa71Yv3JgED9r/uiI8qAQKzeAKNEyoBA80kHg23KgEBBug2DlsqAQAPvO+Qa0oBAyYJDJEvSgEBeKkqEddKAQOnVg+VC2oBARxmLJXHagED8HsRmOuKAQA+7xaZE4oBA+c77J/vpgEAy1wZoQeqAQHouRCkm8oBA2BhQCXLygEBLF+YpLfaAQEZLdmrD+YBAkM2Giiz6gEAbaJQqg/qAQARtuQvNAYFANtvJqzUCgUCKEdgrkAKBQPTG66sNA4FAZBJlDBIGgUAtyGisKQaBQMypm6xtB4FATykKTS0KgUCzixRtbwqBQGLUHC2kCoFATJguTRULgUCEMZ9N4g2BQFFxq00wDoFAF4xMLjISgUAkPVEOUBKBQP1SV852EoFA+r1cTpkSgUBoy43PLxqBQNA1kY9FGoFAKz2Zr3gagUAqcZ8voBqBQJUoztAnIoFAOE3TkEgigUBV69twfyKBQOCHBDLgKYFA4isQUioqgUD2bhYyUiqBQANUIZKXKoFA0rdEE9cxgUBnuEbT4zGBQIpWl1RDOoFAlP+ilI06gUC/h0C1eD6BQIdFx7XSQYFAuu/WdTZCgUA2KuL1fUKBQBw2H9dgSoFA0RZjOG9SgUD2cOzY2VWBQBh02pojYoFANbnnGnhigUCArvZa12KBQMhDfPspZoFAEQIW/PxpgUDwAhkcEGqBQHmBZP1OcoFAJMJzHbBygUBn6KPeQHqBQHVasB6QeoFAVXW2/rZ6gUDJ+uW/Q4KBQJ/U7F9vgoFABz/wH4WCgUDWWCnhToqBQH71LOFlioFA3wE1IZmKgUCxI2eCNpKBQLVud0KekoFA76GxA2+agUBggbqDp5qBQH3X88RyooFApCn6BJuigUCx6yqmL6qBQLuUNuZ5qoFAuoBtxzWygUDXBHPnWLKBQPFMeeeAsoFA4uYOiDm2gUDJ5qmIFLqBQGnPryg6uoFA7HtRqT++gUDMkO9JLsKBQGSUMis3yoFA89RmDOLRgUAG83cMT9KBQCPqe0xo0oFA8ASTbPvSgUD9xsMNkNqBQEPq+k5N4oFAqL8Dj4XigUC4bQ/vz+KBQF3FPNBO6oFA/DpEUH7qgUD8+0uwr+qBQNURUnDW6oFAMavlUILugUBGDXnRLPKBQOX1fnFS8oFAzsSCsWrygUBTmYjRj/KBQDm5jtG28oFAdPWfkSTzgUA5PbmyI/qBQJ0sxbJv+oFAYzPLEpb6gUBCTtHyvPqBQKMd/LMrAoJATNQCdFYCgkBDrQb0bgKCQCarEJSuAoJAKjqj1FMGgkDdajk1EAqCQFKGQdVDCoJAqqpFNV4KgkAhAk31jAqCQBj1UzW5CoJA8pzltVgOgkBOEYS2SRKCQIwhiJZjEoJAU744N8gWgkAUHsS3PxqCQJZ30hebGoJAZUMCmSkigkC5KwfZSCKCQMEUu3nCJoJAFC5XeqQqgkAOyvO6iS6CQCAqyDwwOoJABjDLfEM6gkB2+wreN0KCQAEknICQUoJA+z7ZwXNagkBPmtwhiVqCQNrm4IGkWoJAlqznoc9agkBlHxzDe2KCQLMcJKOuYoJAY74nw8VigkCGezODEGOCQCveUoQ2aoJAsLJYpFtqgkCtN2HkkWqCQKaAagTNaoJAPxvxJCZugkCjrpIFK3KCQBfknWVycoJAFxik5ZlygkBu46zl0XKCQKJb0UYYeoJAOnPdRmV6gkCzcemmsXqCQOkaGwhMgoJAfk8jSICCgkA0gyhooYKCQHTgVyktioJAZwpeaVSKgkDJFmaph4qCQKsApyqDkoJAYcGtKq6SgkAjGbZK45KCQNatOSsploJAoPppLneqgkCj1Jbv8rGCQAEYni8hsoJAPzL7MNC6gkBsDSxyZcKCQEjHPVLWwoJAWHuDU/DKgkD+nI+TPcuCQI7/v9TP0oJAo0LGtPfSgkB+i/SVfNqCQDPz/zXF2oJAzj00V3DigkCSlTx3peKCQG0ScdhR6oJAI0Z2+HLqgkB3oXlYiOqCQLtDfzis6oJA/MOIuOjqgkAiZrNZVvKCQDLguDl58oJAqt7EmcXygkDUY/P6S/qCQNV99rpf+oJA1CT7Wn36gkB6RgebyvqCQE9wMpw7AoNArUA7vHMCg0Ag2+NcpQaDQGJgd71QCoNAWFN+/XwKg0AL2IXdrAqDQLAVsP4XEoNAr/C6Hl0Sg0BlPsP+kRKDQGg2EgDnGoNAs8lO4cYig0Cm81Qh7iKDQC1bUWI1KYNAhfqR4tAqg0CNE//kQzqDQML8BkV2OoNA+ehPxqRCg0CrLl8GBkODQFqIk4exSoNAyJ6bB+VKg0BD0M+Ij1KDQJBA1oi4UoNA15HZqM1Sg0BAid5I7VKDQNqfDOpwWoNA0R8VCqdag0C9/EuLYmKDQDEyV+upYoNAqm9b68Rig0DdPmCL42KDQBgvgywgaoNAdi7aTahyg0CcDeJt2nKDQIV6E09zeoNA/SoWb4R6g0AnpVKwY4KDQOaskpFZioNAW0qq8e+Kg0Doa1EyGI+DQJ4M7TL3koNAJcWm05WXg0CHiC+0/JqDQNPMspRAnoNAD9pHtfWhg0DqIQs20aaDQINT7FfJsoNA0MPyV/Kyg0DHFS+Z0LqDQI9yN9kFu4NADgVgWmbCg0AYrmuasMKDQEhBcRrUwoNAQYp6Og/Dg0DIiP8aXsaDQN1Sn5tXyoNAB+Gk+3rKg0BOZq6bt8qDQH/5sxvbyoNAvLC8mxLLg0CZ3+e8g9KDQBDe8xzQ0oNANNr3fOnSg0B7vjYe2NqDQEqkaV964oNAMxpyP7Dig0BRK3k/3eKDQJ4ogR8Q44NAJVGFwIjpg0BAT6EAO+qDQEq5tKC26oNAAgTEABjrg0ASNvpBz/KDQIs0BqIb84NAwY8uw3r6g0CEGz1j1/qDQBmibWMM/INAHkxuxG4ChEDExnVkngKEQIarf2TdAoRAxigaJbUGhEC3Na7lYwqEQOfitiWbCoRADiH0Rn8ShEBfzflmoxKEQKMWBOfkEoRA5nssSEQahEDmHXlpiiKEQGjQginIIoRAzHe/iqgqhEBrB8rK6yqEQL9OBAy9MoRAxocKrOQyhEBNmA/sBDOEQHWIQ82tOoRAesFJbdU6hEBrIk+t9zqEQAZtg86iQoRAerO672BKhECqQooTpWKEQMSZobM5Y4RA5EXd1BNrhED0TOSUQGuEQOkFwnXEcIRAIDSJGHWChEAQIpA4oYKEQKeAFzn/hYRAxWtivPaahEBqhJf9pqKEQLRfo33yooRA6+Pf/tGqhEARIh0gtrKEQKoFI6DbsoRALkRQ4Vm6hEDJClohmLqEQDXrnCKgwoRA0AXqQ+nKhEByOxvFgNKEQEQNKcXY0oRAbH68pYPWhECHOiwmS9mEQNvJNQaI2YRAEDlspuLahEDcszrqH/OEQMsRo8x0AoVAOWvCbDwDhUBAoRTtRwWFQJcJ4C1XCoVAx/n/jSILhUCDMgXOQwuFQD9rCg5lC4VAdqwvb7AShUBJCz9PEhOFQOtJR89GE4VAt1VNT20ThUB1WW6wnRqFQDvTcjC6GoVARWJ7sPAahUAEZIHwFhuFQDkeDbGQHoVA0xWusZEihUAudrExpyKFQH+VtXHBIoVAT/e90fYihUDzYLBy/iiFQDru9xLGKoVAOHMAU/wqhUCUBiz0bzKFQAbmNHSoMoVAn8k69M0yhUBHHm9VeTqFQIFAfVXTOoVABPNYd6hGhUAL0zUZhVKFQBiaB13XaoVAaW8h3XtrhUAHeGTehHOFQGKW0mD+goVAE58EIpuKhUBk8g7i3IqFQKxdFcIFi4VAZGtHo6KShUBXyVNj8ZKFQEZgekRFmoVASdB/5GeahUCdX4nEpJqFQLWfliT5moVA25q8JUmihUDEg8MldaKFQKfyx4bvqIVAy1MkxzurhUBzjlVo07KFQJASW4j2soVAEmOS6bS6hUDu6J1J/rqFQG3XMOqlvoVAWMngSgbDhUAOUSlMMsuFQIUNoK7i2oVA9tKlbgfbhUBozLGuU9uFQLXA4o/p4oVArBv2z2TjhUCfK/lPeOOFQIT0HhHH6oVAdX44sWnrhUAj/WES0PKFQGe5arIH84VASjufM7T6hUCKYq1TDvuFQDxas1M0+4VAwbLjVMYChkAIBOd02wKGQGoQ77QOA4ZAhr8jVrwKhkAysik24gqGQOjRZTe/EoZAFSlsl+cShkDQ/554iRqGQAFurxjyGoZAUucw2+YqhkDm7Ww8wzKGQHWQc3ztMoZAE/Kx3dg6hkCeWLn9BzuGQAmD5r6FQoZAHEj8XhBDhkDytD6AFUuGQNsWfkEHU4ZAQ6qVYZ1ThkCSpVSCXViGQCXewKIOW4ZAhl3HAjhbhkDbk9WCkluGQDx9AwQVY4ZAsQAYpJdjhkDR3DrF02qGQPfVRaUZa4ZA6uuCxvxyhkAKJcDH4HqGQLASxocGe4ZA2aDL5yl7hkCIoQQJ84KGQLX4Cmkbg4ZAd7WCK9KShkA5Q6zsOJqGQG3UOg+BqoZAzvpFD8iqhkDEFmGvdKuGQKq6kZAIs4ZA1bCj8HqzhkCVXZ+yG8CGQHWSqFJWwIZAl5N785XFhkCNoIXz1cWGQOMTQ1SMyoZA2m5WlAfLhkAhA3HUsMuGQA3rmXUT04ZAGX8s1rjWhkDCSc4Wv9qGQCMJTzmv6oZAcECXOtnyhkCTVyB9/gKHQIlqZB4OC4dAVnykPwQTh0Drlqm/JBOHQK0+1kCfGodAQo3hQOcah0DgdefgDBuHQKxtJELvIodA9Ad5I2grh0DWia2kFDOHQF7ouyRwM4dAOq/aRZI6h0COTfXFOzuHQCQP/+V5O4dAqJZ96FtLh0BJ5rEpB1OHQIA/vylcU4dAdGnFaYNTh0AoB/Kq/VqHQMjv90ojW4dA3hUC62Nbh0Ab+DnsJWOHQIBaRAxoY4dAnGiursdyh0A65O/PxnqHQDB1JLFzgodAmD3EcymTh0AwDQHVCpuHQPJqQ5YPo4dAeuVv94iqh0BW3nl3yKqHQKKFDF8B24dARpTRogLzh0AsXbLpzh6IQOb6VGraIohAI+fljDEziEDw+CWuJzuIQMiHZC8UQ4hAd7ZpLzVDiEBKonrvoEOIQEcEqXAmS4hALNzf0eFSiEBwsusxLVOIQM55HVPIWohAOa0hE+NaiEBGHy5TMluIQPZdatnmgohAE+PxGwKTiEBGDHQ++6KIQLHHwV9Iq4hAhN4BoT6ziEA3o2yB5rWIQPp7vcQDy4hAb//RZIbLiEBunf8FB9OIQOqjBAYn04hArAFHxyvbiEDrxwSr/vKIQH3GR2wH+4hAP2xZzHf7iEBWb4mtBwOJQIIBUlEfG4lAppCRMhIjiUCcKp0SXCOJQIHOzfPvKolA6lLUcxkriUAqVwjVwjKJQD7OFDUSM4lAgeMYNSwziUBhGCLVZjOJQFCkVpYTO4lAmIJbljI7iUDUlsNWyT2JQG6xJzphU4lAt8JUW95aiUChoGk7Y1uJQA6Ul/zlYolAt93ZPepqiUAn4sDBw4OJQL5ASMIhh4lA/fHoAiGLiUB9/m9FOZuJQFCto4bgoolAWkLmp+aqiUDoWwqIzKuJQFM8TYnUs4lA6lwwbvPSiUC2WxLRTuWJQDzwQdgQE4pADzVO+F4TikBiLn/59BqKQP1twfr4IopAW47Xn1xDikADuNx/fUOKQDwFGgFiS4pAsvJVwj1TikB/VmJnY3OKQC6LoQhUe4pA02TeqTWDikAXQSSrUIuKQBPMZoxWk4pAbtNurImTikAgwp2tEpuKQJps8xNpw4pA0px5m1LzikA84ZJAyhOLQKVQIOFOF4tAzd/VAdMbi0ByHQAjPiOLQIaAQ2RJK4tAv2V05d4yi0DmkwdoREOLQGRjDWhpQ4tA8/cREjSDi0CmD1VzPYuLQKVJlZQ0k4tAopXf1Wubi0DAI+LaUruLQAvrJDxaw4tA2lJnPV/Li0BreKMjE/OLQBDOteOH84tA9S/H0npTjEAcFQmUfFuMQOZV9svY84xAIxM57d/7jEDBG3zu6AONQPGqSxItHI1AloSIsw4kjUCPUby0tiuNQGKL1rRdLI1A0xP/9b0zjUCD5N3+OWyNQBcTIo/O041AuF3M7wrYjUDdXlowk9uNQDu8ZDDV241ACrGoEeTjjUAyqx5S0+aNQAxD71faC45AOeG4JaZjjkCj2+cKqISOQFhFDsz6i45AdotBMnazjkB36FsSHrSOQD0l+R5xBI9A6gJEfrTLj0Dxj43/5tOPQIHzP2Nx649AezFXYwXsj0Bhlo+kyvOPQNAVaDE3WpBAziMOVy9+kEBfxnPgBbqQQBPSFGEHvpBAKvK2wQ/CkEDmJQSDWcqQQEnQxksiApFA9tZnrCMGkUDfMm3MRQaRQFYOn23hDZFAAzgxT+IXkUAIUyxxfySRQK5snnRwOpFA79lg+GBSkUAka6q68WCRQJx9aF1ocpFAluzRvQd1kUDd5vSeRHyRQG6a4j8ugpFAAUg6A3eXkUBHHP2jT5yRQGY/bSc0spFAyZMWaGq2kUC0P/uIGryRQDLQCOlwvJFAFzTWyYzBkUDFJJPqP8aRQMQf22tozpFAwQMZrVDWkUBaaQBPcOKRQEsy5PB47pFALSUTM2D8kUBT6heTfvyRQM+DKnYPEJJA73treGkekkC91JzZASaSQJMfnjpoLJJAAk31WpMukkCp22ndNT6SQCr+vYOCZpJAKfkFBatukkB8zNbF3HOSQBqRaag/hJJA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Io1QQQAAAGDoyPtAAAAAIDSQKkEAAADgyzoyQQAAAEA6PgJBAAAAwDAyE0EAAABAUtLzQAAAAICR6vNAAAAAwJ379kAAAADgaxYBQQAAAIAkb/JAAAAAwNGx8kAAAACA1MEZQQAAAKAmHgVBAAAAAFwJ7UAAAAAAXu3+QAAAAIByqQBBAAAA4EdJCEEAAABA6HzwQAAAAEDb8/RAAAAAoEG470AAAAAg8gP3QAAAAODBpiZBAAAAoOz6/0AAAADg034FQQAAAEDZmAlBAAAAAOwDA0EAAABAPQVFQQAAACAS5gNBAAAAQEW2bUEAAABAzGPwQAAAAGDaEuxAAAAAgDxy8UAAAACgvX8yQQAAAGCqyB1BAAAAoNgiUEEAAAAA67v6QAAAAEDJj/ZAAAAAgFBM/EAAAADAciUYQQAAAECUDBlBAAAAoF60C0EAAAAgs99bQQAAAGDgrexAAAAAQN+nV0EAAABgWLrvQAAAAOAAZ0BBAAAAILys9UAAAADgKZnqQAAAAADT/itBAAAAwAE5MEEAAABg+GDxQAAAACCi6yRBAAAAwDDsA0EAAADAkx/tQAAAAAAkke1AAAAAgKci8EAAAAAADNnzQAAAAACDg/NAAAAAgBOK/UAAAADAR4MEQQAAAEDkDvRAAAAAoOuJ9EAAAACgNzQRQQAAAAC6i35BAAAAQDb5E0EAAACgC5UMQQAAAGA5awFBAAAAoIHUa0EAAACAi2kEQQAAAABnpv9AAAAAoP79TEEAAADApWHtQAAAAODPpA9BAAAAADOlHEEAAACgfK8dQQAAAKBu0/5AAAAAoEl19UAAAABAsBnwQAAAAGBE++pAAAAA4MNX/UAAAACg/f3wQAAAAICobwFBAAAAIJOiJEEAAACgeAIvQQAAAICChfNAAAAA4LnLAUEAAADAl6AJQQAAAMCRMAtBAAAAAA4+8EAAAABAADACQQAAAEAQ0yFBAAAAYLdTCUEAAADAlmoBQQAAAGD5Wg5BAAAAIMPj80AAAAAA/ffwQAAAACC/ou5AAAAAwMg17kAAAAAAYwoAQQAAAOCc/+1AAAAAgFjpC0EAAACAXH8lQQAAAGApYQZBAAAAYIh1A0EAAADg74/yQAAAAGAVHAlBAAAAAD0XCEEAAAAAQBPxQAAAAKBl3+1AAAAAQC5O+EAAAABgAdD9QAAAAGAySCxBAAAAgKwQ/0AAAABAZVs4QQAAAKCgcwdBAAAAQBbSHUEAAACgbkb2QAAAAKABfRRBAAAAAETw9EAAAACgR4z/QAAAAKASqvRAAAAAIJioAkEAAADgmtdeQQAAAECmuRRBAAAA4G21FUEAAACgTlzyQAAAAKAyWv1AAAAAwNyj80AAAACgajAPQQAAAADWoPxAAAAAAKjQDkEAAAAgSgQ7QQAAAOADaiZBAAAAICEl8kAAAAAARm3zQAAAAMDjRENBAAAAwLfuJUEAAADgX0wJQQAAAECmG+5AAAAAgKOVJkEAAACAOigHQQAAAKCuVOtAAAAAQIkw+kAAAAAA/2fqQAAAAIDzGf5AAAAAQEufDUEAAADARloHQQAAAKBXgP5AAAAA4EtmMUEAAACASNAHQQAAAOB8n1pBAAAAoB2950AAAABgDqj5QAAAAADeSABBAAAAIBGJBUEAAABAQv4lQQAAACA9uTpBAAAAIPPdBkEAAADgtrz/QAAAAADnwelAAAAAgPr4CUEAAABgFS8EQQAAAMAKve1AAAAAgLEVEUEAAABAptXzQAAAAECnKe5AAAAAYK0cBUEAAAAAeJTuQAAAAKB2CfNAAAAA4I4h6kAAAADgMWsYQQAAAMBVpwRBAAAAAEiE7kAAAAAgJOfwQAAAAOBUOvtAAAAAgMdn5kAAAAAgHpQBQQAAACAY6O5AAAAAYPKXEEEAAACgM4ICQQAAAECbQ+9AAAAAAPMR+UAAAADg75IBQQAAAMDuwfFAAAAAgLwpRUEAAAAgtT31QAAAACDTnBVBAAAAgI+mIUEAAABAkEsaQQAAAOC6nPRAAAAAgD7DN0EAAABAPRUeQQAAAGBp+x9BAAAAoBQ0OkEAAAAg/nzvQAAAACC+qfNAAAAAoA2VB0EAAAAAiFAHQQAAACCY7jBBAAAAoBDIIkEAAADgSxwuQQAAAADOCvZAAAAA4Cs/DEEAAABAf4ToQAAAAODZAR5BAAAA4LwMJkEAAAAgEBb9QAAAACATHBFBAAAAgEni80AAAABgBb75QAAAACAirwZBAAAAgDCOUEEAAABAbq7wQAAAAODwyxFBAAAAwOGTJkEAAADALQv0QAAAAGDQnfpAAAAAoHap7EAAAAAAVZv+QAAAAICPvRBBAAAAILblPEEAAADgyvz4QAAAAMBH0v5AAAAAIJoV5UAAAADAescPQQAAACDyUB9BAAAAoJLH6kAAAACggJ4MQQAAAOCNMh5BAAAAYEjt6EAAAAAgXLL3QAAAACCZIPNAAAAAoLmS+EAAAAAAqGMFQQAAACBdnvtAAAAAQBiZ8kAAAAAAXhPzQAAAAAAPiPpAAAAA4LtgAkEAAABAVY5FQQAAAABQ8wJBAAAAIDV0+UAAAAAgx9gwQQAAAGAkvxRBAAAA4PA+KEEAAABgGy0IQQAAACDWEfdAAAAAYIGnEUEAAADAygwnQQAAAIBYbkRBAAAAQAPEDEEAAABgI0tJQQAAAKBa2CBBAAAAAMCrIEEAAACgDbghQQAAAOAdRO1AAAAAQLmuA0EAAAAAK5MlQQAAAOCb7AlBAAAAIO8FD0EAAACAAIVnQQAAAIA5OfZAAAAAAJNn+EAAAACgfwAjQQAAAKBoyUNBAAAAwPWCFEEAAACA9UMMQQAAAADpUxFBAAAAQF0QBEEAAABA0psjQQAAAEDKguhAAAAAAIIt80AAAACA3gQzQQAAACBdOglBAAAAIO30KEEAAABganb6QAAAAMCMCvBAAAAAIMFiEkEAAADgORsEQQAAAOD5jfxAAAAAYN5w+UAAAABAIJ3sQAAAAEDQbAdBAAAAoKPE8EAAAADAZ64kQQAAAMArNwdBAAAAgDpSBUEAAABAlHUBQQAAAACsGPBAAAAAQIIE7EAAAACgnOr3QAAAAAA9N+hAAAAAAP3y/kAAAACg0N8aQQAAAKBFtvhAAAAAAKzxDUEAAABgn2MkQQAAAOBtD/BAAAAAAATMREEAAACg40zsQAAAAKAIMidBAAAAgDwgQEEAAADgPXAbQQAAAECRMyNBAAAAwMKRAEEAAACAJbQZQQAAAADk9SJBAAAAAOObDUEAAACAFRoMQQAAAMBcwCVBAAAA4MHE9EAAAACA9iUvQQAAAICaLRJBAAAA4PhnB0EAAACgs2r2QAAAAKDlVPxAAAAAYL6f9kAAAABggaoKQQAAAMAhZPNAAAAAgH5X8EAAAABgN4/uQAAAAIBLAiJBAAAA4C6j9EAAAAAAh/YaQQAAAECzBStBAAAA4BIPCUEAAADgg7AjQQAAACCPaAVBAAAAoBHbF0EAAADgAkoAQQAAAMDIsvJAAAAAgOGn6UAAAABA6aYXQQAAAKCv6uVAAAAAoNhU9UAAAAAAh8XoQAAAAMCGJA5BAAAAwD5NAUEAAABgvtr7QAAAAEC9/vJAAAAAQPVvIEEAAABgaiLxQAAAAMCjJu9AAAAAQCyc/0AAAADAZjX/QAAAAECZfgVBAAAAwFqcOUEAAABA1cTrQAAAAKAnrSRBAAAAYJfQ7UAAAADgjKsZQQAAAMDXqDJBAAAAYIOHD0EAAADgplwgQQAAAOAv2+1AAAAAwK3SAEEAAAAgFFESQQAAAIBdYhBBAAAAICYLNEEAAADgu2j9QAAAAECc7/5AAAAAQKQQCkEAAAAgsdlJQQAAAKBEcAtBAAAAQM05/UAAAADgNOMoQQAAAMCDy/tAAAAAQOVSB0EAAACAGeL4QAAAAMDfEfVAAAAAIM016kAAAACgP5rlQAAAAOAYdfZAAAAAIEJVHEEAAABAo9n5QAAAAIAX6PZAAAAAYHImAkEAAABAih73QAAAACDL2QBBAAAAYN2g5kAAAABgdFTpQAAAAKDWYvVAAAAAoLPt50AAAABg6EP8QAAAAMB02+hAAAAAQFmv60AAAAAAfOscQQAAACB/jClBAAAAQAgn6UAAAAAgq48IQQAAAEC0Oh1BAAAA4LX8C0EAAAAg4QcNQQAAACDDP/FAAAAAAILQGkEAAADAoLwTQQAAAGAj7QFBAAAAgPleFkEAAADAqF8VQQAAACCS5ylBAAAAAJx9CEEAAABAEZz+QAAAAMDee/1AAAAAwNONB0EAAACApPXzQAAAAKCwMexAAAAAADwDGEEAAABgTbMXQQAAAMBKavBAAAAAIAlP6EAAAACAq2rwQAAAAKA/MQVBAAAAAOISKUEAAAAgB9cSQQAAAMArxvBAAAAAwNyVDEEAAABAiy4JQQAAAEA3Tu5AAAAAYB++DUEAAAAgN+wEQQAAAEB3AexAAAAAQFWJ6UAAAACAS4PsQAAAAOCes+9AAAAA4ImiAEEAAABAcG7tQAAAACA64/pAAAAAQCSmCkEAAABAtyUsQQAAAIABtftAAAAAQC2x9kAAAABghx33QAAAAEC2LfdAAAAAIHOva0EAAACAMHgUQQAAAGB7SepAAAAAIGS9A0EAAABgDKQ1QQAAACDNLU5BAAAAYJpB90AAAABgFt8pQQAAAADO3vRAAAAAYAkaHEEAAAAAP/EUQQAAAMCk5yJBAAAAYOzZIEEAAAAAlfz1QAAAAMAPYABBAAAAwKGiHUEAAADg//EnQQAAACAXkANBAAAA4GONHEEAAACgF+BMQQAAAODlQTFBAAAAoMFEPkEAAAAgS2UEQQAAAADQZh5BAAAAIOgrBEEAAACg3vUCQQAAAOCCwQNBAAAAAMC4DEEAAABglmdIQQAAAGByRyxBAAAAQFHe+UAAAAAA83AzQQAAAOBa2exAAAAAgOOkHUEAAAAg7xcRQQAA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oOLtQAAAACCvgPJAAAAAAENxTkEAAACg168AQQAAAKDTVfVAAAAAwDUXFUEAAAAAfaU/QQAAAGCS1gxBAAAAoC81NEEAAACgeFrqQAAAAECmww9BAAAAYC7yS0EAAAAgjH/8QAAAAGDKe/ZAAAAA4KX98UAAAADAoFUAQQAAAACDbepAAAAAoKoIKUEAAADAIS4kQQAAAECpvCFBAAAAANGb90AAAACAWRj1QAAAAEB82fpAAAAAQCDP8EAAAADgZmkNQQAAACBTVhtBAAAAwIgV60AAAAAgy4D0QAAAAODn7/RAAAAAAAFGFkEAAAAA7zcbQQAAAEC6tPVAAAAAAFNpBkEAAABgVmXzQAAAAKC4mQFBAAAAwEY/9kAAAAAgFchEQQAAAICQHyBBAAAAgHoTB0EAAADg/bsrQQAAAEBT+RBBAAAAoCzMEUEAAACgZnf1QAAAAEDg+e9AAAAA4MYTMEEAAABgzRvwQAAAAKA8fvJAAAAAAEhM80AAAABgohowQQAAAODEVQdBAAAAIBsLKEEAAAAAXNIJQQAAAGD02wpBAAAA4I/2CkEAAACANhQFQQAAAOB6MRRBAAAAAIh+B0EAAAAAM6IBQQAAAKAi6+VAAAAAwAOA8kAAAAAgiEH6QAAAAKCPwuZAAAAAgJVHC0EAAACgcz0GQQAAAIA7PBFBAAAAIPoU8EAAAABgSzP1QAAAAIAPpAVBAAAAQBkT8EAAAABgJkkCQQAAAGBhBRNBAAAAgAkY70AAAAAAZ1wHQQAAAIDXTQFBAAAAALox8UAAAADgNQT5QAAAAKDjqOhAAAAAQA6qBEEAAABgCyMQQQAAAIC1A/tAAAAAIH4wAUEAAABAvjb1QAAAAAAWovdAAAAAQB83+kAAAADgjI4QQQAAACClexRBAAAAoAqBKkEAAACA3lH1QAAAACD0mvFAAAAAADBs/0AAAACAiJYdQQAAAIBxTgVBAAAA4HxD+UAAAACg7y38QAAAAOBIpSdBAAAAYAbV60AAAABAKqsAQQAAAKBNFQxBAAAAwKV0GkEAAABAkjMIQQAAAMCKXO5AAAAA4KwiD0EAAABgcAk4QQAAAMCkh/BAAAAAYH8mBUEAAADg7KkcQQAAAKD2c/ZAAAAAQI9RG0EAAACA8MnqQAAAAIAUVA9BAAAAYH3M9kAAAAAgVCr5QAAAAIBqwPtAAAAAgBpK/UAAAADg3tj5QAAAAMAz8fZAAAAAoAkY/0AAAAAAwSLpQAAAACDe+ehAAAAAwDw070AAAACAr7D0QAAAAADBzzRBAAAAACQk7kAAAAAg5HkTQQAAAADvAAFBAAAAwCx6+0AAAADAt2siQQAAAMDs/A5BAAAAIPJmBEEAAADg9o8gQQAAAODZVfNAAAAA4BLX/UAAAADgpRcdQQAAAICNNUlBAAAA4PYdEUEAAAAA8XAYQQAAAMCcgwJBAAAAQHM4IkEAAADAIvomQQAAAID09wBBAAAAoGwEEkEAAABADCzzQAAAAAA3oBBBAAAAYI1kOUEAAACgEV4DQQAAAEBPWvpAAAAAgHUHM0EAAADAm8TnQAAAAMB0dRdBAAAAIBzQEUEAAAAgYmwNQQAAACAKvSZBAAAAIATkBEEAAADgfV3xQAAAAAB3+/9AAAAAQCq0A0EAAABgisv8QAAAAODXridBAAAAAA+R6kAAAADAY5YAQQAAAGChee5AAAAAQAsKB0EAAACgkGQOQQAAAMBLVwNBAAAAgHlOE0EAAAAAJ4b2QAAAAMBEnu1AAAAAgFwx5kAAAACg+K4KQQAAAODwkAZBAAAAwJlX9UAAAABAeXf2QAAAAKDby/VAAAAA4KsN9kAAAABgvy/xQAAAAMAeju9AAAAAgNDP7EAAAABgmG/7QAAAAMDQP/VAAAAAQJeT90AAAAAAdMgEQQAAAID5uvZAAAAAIKDVEUEAAABgywT7QAAAAMD0kCJBAAAAQJy/F0EAAAAA/v0MQQAAAGA76SxBAAAAoGWE+0AAAABAcoT8QAAAAICcMgNBAAAAwPXWD0EAAADApMIIQQAAAMDMHv5AAAAAQA+aBkEAAADgVCRPQQAAAKDoL/NAAAAAwJhIIEEAAAAgrdMLQQAAAMA1huxAAAAAIEaH8EAAAADAYNQpQQAAAID+bQdBAAAA4ADC7EAAAAAAu4EyQQAAAOCmmRBBAAAAoIi290AAAAAgqtPyQAAAAADY4xlBAAAAwOPvPEEAAAAg0SEFQQAAAGBcSehAAAAAgKBTBkEAAACgQM0dQQAAAKA9egRBAAAAwF9W6UAAAADAxnjuQAAAACB3x+lAAAAAQAZh8UAAAAAAYszmQAAAAIDm1vBAAAAAYPV460AAAACA5HXpQAAAAICSFv1AAAAAQKmx7kAAAACA14gGQQAAAADbS/xAAAAAYD228EAAAACAy7PnQAAAAIBfhElBAAAAAKsWJkEAAABgM13tQAAAACDOCPFAAAAAQDZfCkEAAABgqGYYQQAAAEC//SdBAAAAIHxs9EAAAADAFhQHQQAAAGDtl/VAAAAAgOsHA0EAAADghU76QAAAAAAVfiNBAAAAQPz060AAAAAARx0bQQAAAID9GQNBAAAAoGpERUEAAACANssEQQAAAGBEHgxBAAAAAGboIEEAAADgUsAGQQAAACCtPAZBAAAAIAZc80AAAACAdDLwQAAAAIAIC+5AAAAAIHCKOEEAAABAzBDqQAAAAGAm7e9AAAAAIDBjK0EAAAAAylQcQQAAAKA8AR9BAAAAQN2zI0EAAABgAVT/QAAAAEDnZvJAAAAAAPmeAEEAAAAAvucAQQAAAMA2tvJAAAAAIBFd60AAAAAAARIAQQAAAABXJulAAAAA4EFO8EAAAADA0E/0QAAAAAALsR5BAAAAANHzDEEAAABgcU7tQAAAACC6Be5AAAAAoH7j6EAAAACg/+P1QAAAAABF/zJBAAAAQHPvOEEAAADAT1bvQAAAAABFLfBAAAAAgOZsBEEAAADAWDcWQQAAAMDd8QRBAAAAwLJ89UAAAABAQ6n0QAAAAECsbwlBAAAAQNcnI0EAAABAgTAMQQAAAOCtfiNBAAAAIOabLkEAAACgghvuQAAAAOBxFuhAAAAAwLTjNEEAAADgnuXwQAAAAIBZPhBBAAAAINE0+0AAAAAgLKQCQQAAAMBKjupAAAAAwCQRCUEAAABgwO0EQQAAAMAk0fJAAAAAoH8y9EAAAABAs8L4QAAAACAs8PZAAAAAYL7fEUEAAABgirHmQAAAAGCPE+pAAAAAQCJCKEEAAACgHOkPQQAAAMDNHQNBAAAAYBYP8UAAAABgtdEKQQAAAKAsNBFBAAAAgN9060AAAABg6vrrQAAAAMDOB/NAAAAAYMsjDEEAAABAo0/+QAAAAEBfdvpAAAAAwMas9kAAAABAvHknQQAAAKDSFANBAAAAIB5080AAAABg/LYKQQAAAKDc7PRAAAAA4IXk6UAAAADAsf0FQQAAAMBCnSJBAAAAYPK0+0AAAADAsH4mQQAAACBf+P9AAAAAAMuf9UAAAAAAHYfnQAAAACAwbiFBAAAAQBQO9EAAAAAAr9rzQAAAAIDuvCpBAAAAwOid/EAAAAAAOLj+QAAAAIDTohpBAAAAgN4MEEEAAADADsHsQAAAAACOm/JAAAAAgIfYAEEAAAAga2IDQQAAAGAlf+RAAAAAwJIsE0EAAADgyC/wQAAAAEDWguVAAAAA4LasBUEAAAAga7DsQAAAAKCCMPpAAAAAAOaQIkEAAADAkLvxQAAAAMAj5hNBAAAAQOxqCkEAAAAggwfoQAAAAOApyOlAAAAAIFC6/EAAAACgbuHsQAAAAOC5n+1AAAAAoBVs9UAAAABAf4TqQAAAAOCVw+lAAAAAgEBs6kAAAAAAdkj9QAAAAAAVGghBAAAAALI28UAAAADA54rpQAAAAOAEbfRAAAAAIEAHF0EAAABAkbbrQAAAAAAcYS9BAAAAoG7N/UAAAADgMu7/QAAAAABAngRBAAAAwDX2C0EAAADARor6QAAAAGBTQDtBAAAAgJPHJ0EAAADA+GsZQQAAACD7tRBBAAAAoOra60AAAAAAPIgWQQAAAMDwOw5BAAAAoIoxD0EAAAAgmWzxQAAAAMBj/QVBAAAAQPH/A0EAAAAgTDkgQQAAAGC0HuRAAAAAgBqGJkEAAACA1U7pQAAAACAXpwNBAAAAwDSK+kAAAABACWcCQQAAAOBQmO1AAAAAwOoK6kAAAADAql8wQQAAAKBtuhRBAAAAwAoXBkEAAACAfMwWQQAAAADaKxdBAAAAQGAL/0AAAACgK0z5QAAAAKAd0+pAAAAAoAN/60AAAADAHH7qQAAAAGAysetAAAAA4N2lPUEAAADgnDTuQAAAACA3POhAAAAAQPzq6kAAAABgqpn0QAAAAKBExR5BAAAAYAunDkEAAAAANQf+QAAAAGDu2utAAAAAQG2lAUEAAADg6pfnQAAAAOBB+fpAAAAAoAf66kAAAACg2rg8QQAAAADs9PtAAAAAwAM1SEEAAABgiqHtQAAAACDCtCpBAAAAQEuMCUEAAACAc8H3QAAAAAB4W/FAAAAAgPPn8kAAAACg0E1EQQAAACAHJSpBAAAAALl580AAAADAt1bvQAAAAGBFBfpAAAAAIPx06EAAAACgnOvpQAAAAAA9gfVAAAAAIL7s+UAAAACgXKH/QAAAAEBqHv5AAAAAYAIpFkEAAADgeRv4QAAAAKBbqEVBAAAAgHpnHkEAAACAIWH8QAAAAACrBD1BAAAAIC/QHUEAAADgpXLxQAAAAKABEhFBAAAAQCX0BUEAAABAgIP+QAAAAIBYpfBAAAAAoBwj8UAAAACgz7gDQQAAAAA1litBAAAAQNkjBEEAAABgc2fkQAAAAKD9QgRBAAAAwIwY7kAAAADgKtAqQQAAAICzgAtBAAAAoGYpCEEAAACALtjyQAAAACCm2u9AAAAAwB8c8kAAAADgzZ7tQAAA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eJwtm3d8DmkXhieRKNGFsASDCFGjRx+9rwQhWDEIoiTRSwRjlWWJkiVZIXb03pboZZTsRl9CRN3RU6xoUaJ9n3Plr/nNOzNPOeU+9znneRVFMVuedWylKIoxqY2bXIdGvtL+f9UKhzt9v7fTp73+fm+3rf1Rfr+syHN18r6635+b6bxvNnMr/v1eW3So2Per9a64XNUsNxnfDghuKvfVujvL8xbBdb5f9SJZJeV5TIMyck2YUU7Gmdg9+/u4VvryWvLe2edp3++Nqc9yf79XIqrIutSUfc++X/XT0Vnyvk+n+vL8L0+eX5r3UtbXdmcR2d+ywLwy/4VZhWW+Fm9k/cbn3S/kvZZz3sg4a7bKe+baGZ/k+cqdctVfT5dx9ceO8r76+ourvGfefv/9Xgkvxjivff+T+zZfJsjz4EoyrrZ5o8hR75KeIff7M9vIfjdMVmQ9NbM+yPwJL2T/5r4TAfL8ToasUx+ZlUvem2LK97YVXVv2u+LGF5lvVjfkEPr1q6xv9lZZnz7wTQXZf8eqjNtkmuzf1B4VkN8/9HSQcbq65hf5DNubKfv2ipN748xi2bd56pDs097rL9+rmWvYb0RbFxnvrRf6z3VR9GYNvCPzKcWC5bl2roB8b6ZelfVp0d1lP+o/h0VPRsQOsQ8lNTiPzOuZjVwf70BeN++IHJTObUrJ87a/ecr3RS4gnyH+8r7xeIHsS/fp/E2+6xcv6zLT4kUv1ux+H9BruMyv5/0m32nbWood6kFTZV/G3Az0PWZNHuT47zuZf+II2Y/hf6ugzH8kUfSnuq0Q/VrJHrJew2+TyFH5K1jkZbwYLN8b3Q6wXm0l9hZxQfavLfh3lIyzMlbm0/47JM/1mdit/VuyJtfW/eVe8ypXWu5HXkCu01eIX1mfXarKfm8vFf+wko7KOtTRh2Sdyvi24u/2zE4iR2tjF+TR+jL+fGOl+JtyeKrs3/ovA7kV6y5Xff3pijJ//cZid+aIQWIndu2a8r6yPT/fzYl7KtcKL2V+c4mGnGt9wp7Cr4s8dCVT5KV+qo/c/miH3Ux86iVyOzUS3PFK6CDzVtwk/qgd+lRd5o33xu6rp4ifqwe+/iD62vONff3zTXBIy9yFvue0FxwxZvxcSfZfOf6trOPX40XRa1ORn+Z0FnlFbRX/0MdOxO/7JIq+VH+e63HNUuX7YAfRm31sQXn5PijPc5m/1CVwq8KIQjKfR2X82O26zKO/i5X1qWePgYel14kfGIcmiPy0kyNkfKvhcNZzZac819u24L0R4LhSU3GX8aMj8cfaNfC7wg8Fn9VGTtjNjmLif3ZEjOjBeFUafzHHfpb5LjUBz8/HiZzNHVuIC6HzvOV31y+id8szO5/M9ymA5+prkaOxfBDjXliHXrtHOIEjafK9OWwP9vzkqsxjNImU55b7HPld76DJ91qP/BIP7NSmokfNZxH+4uUu76kVgkUfen1H7Ovij9hPu3C5Wq8WoU8fQ8bRHy4Ve1M/xoo/aoEtZd/a8QeVZf5/+xH3VpUiLiwvjh22boE8TrQSeZvx05B/tivjuLfpLL/Pnxks41R4LnJU+ljif8ZfZfCfgUkid+XrAfw14aCHfNd3tNiXPa6Q4JR9cZ3giu3tLPZsTzJayTyf/sYOK2+S762Dvwi+Kevbg4Mny5WQa65G4r9m/XaC+2ruzHR5/1CQ+IsxKAC78NqE37StQ3ytn058bOML7nV5JjihJDwRuzPcV7HuHTuxn+5DXNGjInIzF3+T+bWequjLTs7Gr2a9bSi/u00SP7CbJQkfMPMuRM5rm3At0UfsXW8f+IR9dSGONWsj+tVDy4p965fBR3X9eZGHkanIVb39Df3nuoT9RfyGPjfel/VbnW7iJ2dV8Omyp4yva1vw53oFwRXPY6IHrdk3+V7PzIWflR0l+zH/Wi/rUI2e8IzOmVxrX0JOU/VpMu/1F9i9QyV4xA+NB8n88bcYL9EJXrQ1VPSgNJgoelYy+rWV7/9xIh4pj0V/hvMgkY/x20jBeSPqHfg7qqrYgRkTIvakZc/HXie9Zv6+zrJPc9YU0a+x6mdwUDfkuTZGZX2H23Ct6yx6tPzGir8p/eMHy3rqTxoh3xcNkHUZufeXlfWWuwav6f4av9z1O3Y7ubLISXs2CXv6eoV1BBxuIN+X/FX2qbc41knsIbk3OBe2CT6zL1j2rSzOI3arLyyB/VeME/tS1kbIc71ZdhVZb6MCYid2hwxweM5Q8SOz4R7iWXQsei/QCvy1HfDHWyMFp5VxS5rIfrzDesjz8T7o87eGIhd1Vt96ch+fKHHXvL2aeBa/RnBG730NuddUxX7N3tfQa4t/2c+0D4I35pT8Mr9ytEsjuf+hJvZ7bCz7cM9D/C+7Eb4zdbHI2dy6ArsZ4CO4ZM+04JnzQsQu1XtbBd/s8WVlXfoqL3lPT8+Cz412k33qV8vLe9aG+rIf3e0FfnP0PTj660TRuzp4PHE3NhG/GzQe/udyVeSvjotFX32vwBtr1CbeVbglcjCV/sLH9fB3+GnMlIrEwWD4g/eBJ+grUcZVXcAB88V/vP/wrMjDeNNT5GZXrgRPrevBvirekPXbatEixKWPxI/reYhzxQsRl3fUhmeePSJ2ZJa8Luu07nRj/zfWEveu7xF96U/XYl9RrQT/tLYLCmN3VURO5pMYiRfGkQ+iD/tfR7Evfefv4M2sDSI/s2Y+8qfD0RIH1JvnBXf11UN6y/XnN+Q9P98iLg4dOED291u6rM+uswu+OMYLvt8qI0e+gfK7mf+jyEfP44ddpOyVcXSHrzK/UaYyuOxxTfBBzT9H8ME4PwP+fa8dfDGlLnF1f7qsR3l8An/5HMfzBi4SR8z1LsJr1Ki9+MX0r4KTekBl8sPprqIna28V5JHvFfbyQxR8b31x8D/2E3hW/oTo237ly3zLa/rKeKVPSV5jRJ4gvrmtBYc+7xS5q/oZeMa26ti90x7ypv3bkZNzLHa865Y81zavkvHt2oXFr6zM+sIP1XLVhY/pFfKCZ08LYD9nY2U/6riOxIUsJ/SozRH7MMd0kXVbC+bixw2jBbfVut3Ao7qHe4rd3E8SuzJvlYR/pVYSPDI6O8k+lIv5iZ8+X8V/1Ne3JE4qX7eKHtU/p5HnXHfpJlevgvC/2O0iF+vf/SJPMz5M/MyKO8Y8JYuSv3iUl/HUD7595Xn+dcjbrzF+NuOVyMlqZgt+qRnL4TXTIuEhQftFPopVT+xAKeGDHDL2yfhWpo/wDiXtgqxDbxskfNrwrEe+nDUY3N86UOKu2b0jdlfqTE3syRGcKdUTvK40DtyLShK8s44fYr6fDNGrUsFR7F9rP6A4cm9BHBswRfiX+neA6E1ZmCY4Ye5vKnzaONwdHjIwRa52KWfBAUU/Qj63si/fZQ9FfzWLgG+j1sv67P3HiBv7l5KnRvqDF4XKUudw7STxwCpQWsYx3oTKPq27+0W/2iN4jqY1A0+Dp5HPviomcrIzT8i4insE/vJgKvng+Xxib9rhq/Dt/U/lfWX4r+Bx94rgZitv4u7jlrJf83Irmd8Yflzig137qdiPumauj8i5YEv2tfA+flmvmuCgcvB36hBFVPSxORt7bzzZEzwuJ3xfychsLfMHJZDf/jObPK1ZFHGwjRvX6j7gfIO8Ysfq6QjwLNoBeYcUhZ+s+oV1ex+DX7+qg7xudAYn/thF/D02EPufkil5sN7THf6cEVNNfm+tES9yHRO7MEoMJD8/F4Z/XRmL3Z9PJz4mzxY70QYFIf9ON7A/x40yr5q9E74R8AY7HDPJEXvbS/6ecl7itzK5IOPG/wMP7HZf7FcvZBYFB6rJOpRcd6mz3WguOKeNT4U/GcfhCZ+DyWf9XAUf9NmLJa6ZSyvz3cyRok9jeS6Rn/lhK3lGv0vhMk7uO/y+vwXxM8uN+sHeEcT7zcuFx1llxoLfGyrKeOaUEJlHf15NeJnyUx9Zl/a4o7ynfb4h+7AdOxLvnnWG/8+cLzigjXlIvPw6W+Sm9fiX/K3AS4m/2qOB8OrcY53w0+GyHzPAnTwkLpF8vEdVsXP7Yk3Rl35vLfqf3lV+1z3u813E7gz2NRoc7hVI3D29C7wp0Ft4srkoXHDRrPEY3nY5ljrYoyOyPztwNPnNisKyLy1ooy7z1h4A73d1EXnaee9hT0EfZV1m4EN4SJlh2MGjmuJXxrt5xNft18hbru6V+bWZfSQeGLuagB+3m6DP6gHw0NlXsLPu8El7dhL+rKYS1zqtJx4Mu04e4zsB//CpRR0vwFfwTzkQyrrezxgi4/qehZ+uK0J8SEwV3LTC3vwo343YiN46B1PHvBSHX9wpLvisvD4t69UPOYue7VG7sdPgBl1kPWOWgPsfg7C7qa2Ix8/gJ+qQ33rJ/h1asO+/2sELnj4SOVnjzote1K9PpV5oRk8VezY+5cberuRCvwndyS8yi4OD+zzw053O4NuyxuC7x2CJD2qkD/xgXojUqVWf9eD531HE22hd8g21ymWZVwsuL+MpH1fDzzYtggfWCxA/NcfZ4P/Gxap8f/8Z9Um/4/K9uvdv8R+lZRf8bdQs5JDXm32vrCr6VOK8hddoN0qy/kDqK2r1Y5/ZRwr5SHVf8q9FXsKnlNN38aPNUeSrVXORX8f6M5//TuopyS4iV6Ud/MM+Y0q9TDl0iriej/qf1u4F492pxv2hVKlDqckbZH9KLPVWa21r/PHROvJtZ/Jb/ehAeHDcB/hP3qX4wbwscDJsE3ywJ3UDPWm6yFsr1lf0oX0pRD2iXD/Jt8w+j0QvqusWvj8zm+/mFBM+YW+NFL5vDEkTHNUSdgeBn2miJ+P+266ijzEtpJ5uhQ7n/boVyNdPJjNe69cSN5XPFyVOaCE7Rd/qAXdwdUIa/lX0ooxju25DT6uyRD521lPsv8It7DglkriStw+8YdAh6h9FvsEftVrU++7kJ67GhRC3Hd3hoUG9yG93ncS/tkfKOtRF+YSfmk0XUfc4VRS+4BFOH+FsFHXIB5bYjRV3p6WMVzkd/+/Rkbh97yG8eecIcM7zkchbq1dHxlccT2PHDhng5Fh/9rlpm/BZPfAI+iidxT7aHxH5W4+aEh9edhS8NDYuFPzRw+diB0vmk5deHCE4YR1+CR70yy08QYlSqIf5fxJeoNzsJP6ueK+RuGceo/6mr8pLXG2XKt9r5QeXxJ6HkEfcyiv2odfpKn5khXqw/3/gaXbEH9Q1808WPStph8n7/MK5d6yI/cy/Az4M6Sr2orQIh/8M+pO8aERX8jmvs/Al3w3UCyaUYh+l35MnpD+hv+IYCv4E/8Dzd+RtZvRw8CuxNnZ07QzzJjxnvV19Rc5aZF74yIAU5J9bo479Jox4W2YHvGl0b5Gn6fCAuLPkB/ZzL4h6gt9ZsQ/1HXagjf9IvlPjufA4bcjaFnJvXRJ+r27fjb/naU7dYc9j4bVqVCLxPF+YSvx5St4x/AHrSupIHWlnIeotZZsSpxdSL7V9PKi/VtnBfuYel/1Zl9rLe9Yz6rVazSr463JP7GVeOny5QyvJO5Vc5+CdjfrAP0YcAe+9I4X/maEX5aqmgseaeyZ9PI9fqAt1fcm8XqOok54pDn4OfpxTrzyIH98KlPc152L0M+4uIU7v2EE8Tg9mnQkN4E+hUeSvoTMEV8yCRUQfatAj6jHLZpOPX75Nv2z7ePKHxTepTyTnA/9ThoIbBQeKHtTP58mz/msPv3Eyxc+st9HC5y11JzxuO3mSuh2/Mye8wc4aBOMfURfIy8yTsj77013quHsiif+/D+kj6179jv5Oj1zYedgTqVsoRWPon23xlzzZTAoDt72vSJ3MapwMTjVuLX5jdn5I/WJPB+oDji7kj2NHUq8vmyr2p3oUIB8s3YQ8+WA6fuTzTu71o1WpC//+kHzyRST5z/0xYoe6toQ8f2YOf676p/BxI0gnTpfYir6KzyEeVLlNvjiit9ivtb8cOLOlPn3pTY+xp0pN6Udca04+XmiAC/dFyZPn38Fugi3qfT3DqNs9KEa8nhwmPNNe/RF+vtND6rxKh9LEuYot6WfsqiW8TjGn018cUU3wzTqRLn5qzD8mvFLpF9he5rn0FLt23g/PvtGWfGRqN5lfnXpb8FgtPhmee6cY/PnjPuH1erVJ5E928eZyv+wzdpJEHqxOf0Pf9txL0ZsRYOEvm3pRT5vwBzhQl36FeiA/9cuf1yOXTn70EXw/CW5oTjb68adfqXpWhycmjwJf2ryhP5mxL6ff24t+0+FX4hd26kDh8UrjfKI3TfdXmXcj/vj7WIljWvx08ojdd2V+K6o19eeoC+D3oaU5/RIn6hBL3fGXOzbxWnMkD3c1qNMu0tB3r2fUS9YtpX+x9728b49MI++dmY+4HvZCrmZUBPqKuPOT/D53H/2nZ9VryHVBLPWfm15S97aUe9jX5ifCI5QVu8VOtRqJ9L0qrES+vmHsI6Uq8SJ7pMjfKnoKu2l/Hpx6SL5kVS3APAd9ke8B6gqm3yXG2fZM1qMkqNQXajfF3l7sEHy1tx4kbrVpinyGZeNvOzLY9+5Psg4zpTN12BALvf1Yjzqt2zjycefLxO3lo8XvlcrPyUPzR4CDQ/sRr59vEXzSXN8ID1Gf7BU/sQZ/Y307/aWOoG5dBV++uBmcSpgo69NPNoIvt31JXuQ7HL9K6A2PW5shvNsaupp41HI4+x8YSDxZ5Q3vmHUBOwyeJXZih/6KnWyaJHo1+2vCV+w8TsKrjdQr+EnydHB34nhw9kfiu228hKf5Z4L/EcRNO6yg+KPtmY/zKa37wyceL6Yfah2gXpKcAO+IaE0f72MFeW57dSWOvqGuZowF7+15f5K/nFoBD1mdIX5gtaDOqg0qKHah98lFfnNtMPWcOuPw+5hHkjeYx4sThzpWpk9TtiR2PjwEv+1N30AJC5F1WRPnit7Va/Bf87ob+WzTtfDYSxulfmS5NSe/bZjF+Z5jvcnz04ZRpz77mvMAcfXIW9d2JP5fi5V6j3mjBLzNc5TwHrXnYuRfu29OfBpCf2F3osynZ/cHF95Ow47KaODSpgLil2aj4Zw3Cc5NHnQ0GV6RO1PsW/8rx+/uryLP+WbC465q8Jx9G3LO7exqLOsZspj+WcoSwS8zqQP1iHn16Sf+EoifT55OPfNrFfjU/TzYx7Yk6hDjtlEvqdRJ8iVjwKZmMk/qduHd6rBb4OmhnsOxX/qUZkn6APrghqIfrWiU2KkZDx6aw5YSr/zWUj9ZU4g+0sTT8PtiT8H3Adniv3Yw9T2zq0a+t9qduOV0Hfsw9xJ3nxaTuKX3mk49948B1Es2pzLP7hfEkRZh8KyKacjzRjDx8Z0LvLTuYurdjbfxvutcWZ/a8CE8Yv1U2acybDZx/MJr9Dm0h+Clmbcd8aWwB/agXJD3rOa34SPh0fhD3pvkeTHhnANL3Qdf3dyQ+sdVX3CuYDg873WK4LTRpzr8pOFT7GWxxfpCypPvnE6X9Rjlu1NXLDQL/uFEXqv9tQW5tD9F3rg7jPMUFZqRd/w9VuKXmrQI3u1I/cVa7yW8S/vNgp/unyl82Dz9mjqTdxx1yErwVfXKNfxrVwV4zujRfN98Ev3laTHUvRdVBBfmrsRfX3iKHVvPZgguGhM5N2R4/Mo6FjwmLjQdK/PrkVfFj6zuhURveoFh8EnfQvC6bS7oZ/Vj9F3+X/poix9SV4ui76d55ab+4tkI+eStRd7nF8Z+HCaBI4/WES961UE/lfsK3ppZ+8C7hi7ku22rwBdWLSUPrvYLdlfdCR6Z6EZ9Y/dN6kpjzqLndgr1vcn3Jf4oi9bhz3ubwytiZqHH/SfpE8UEgMdb87GPBneoox05Rt/+UyC8YUMofKVhBjzqeaLwQS3sBP2poT/BF+fSH1AWVKLuFmSDPx8vkSel+hPvh36DP2/+kfrxV4V4Vbssflj5OHYc9xJ5j6nA+cfIIvKd6deIeu+5/pw7eXOPvDI4lbiy4h/BL7XxKfSwLolzPsuoYygfz4MzW7KlD2WXPkBeHZhzXuGngvT1fzkNr3J+RF2vhIPgklnxG/ttdBF57ujQUfZzifqlPrSt+K/SviTx4t5pxrei0XNxU+Rm7aoOTvmMpH4xaRl51YEN9F1a5wOvCl3nXJjDXeKtV23WlW5yjm/8A/Ko3BnUg27SZzYcSnG+rt8W4sQa8ltjXU4f3Gd2zrnCfcShpm7Eg5Ba4NDjQsSvTXXpO/dNlPMfard+5Cf7nnAe4lVt4Snqnev444dI+gWt3jLu8nT6Nb3y0yfO2Egd1/6TeqLrIHjq6dbgWq359InT/oZHtO/CeYVbScSpCCfspEY85//UluRvN5Lgi8Nz+FrWVXApnHxHO71c8Mc+Sd1CG5xTZ8o3CvtZVlPisranOf3Hu0ESj82Ut9QlOnXLqZc1h79emkz+5feKfl32cuJvTDL92N57xe+NV7+THx8NIB49LY7+yvSDH9XQ6R+cKQm+ZzqQzxSdRH+/WA322WMuPOreafEXLfdD6hgFY5D7nKvgdnJXeHbce+obLeChZlJp8Leyt+hLKdKSPmXP49hLS84TaiNdsOu4KPLVwbbMpyTGCj8ytsIblEfUdbSezvRh1wRwXjct57zvQviHuioE+Qd9JU6vaynrUb2CyJOzPvPez8HoP+sD9jD9lfAmYy11a9X3KudpUxPgL0ubU9ddXZ3131qWUyeaTp+uzi7RnxHfkb7pAORvbLHx51Tqbqp7BepRjf/Dj17+JOu0lyWQf97+mzr4mlmc74qugB7XFqMv33YWcq0GDtsxOX30gAbwgwWXqZNW7iz608cdJE/bvQ+9Hb6IPTlGkuc8nIMey02S8bUbLcGToZzLMOaMYT3jfHnvehB4WMgLnriM87mmS0v8p8lG5JGg0wcIn0seELoK/FxCPVaLcIIfZBahL1vVhi+aP3BOu+QH4sz8yeSFufzR8/zOOfu9xPms5sPAlwJ3c861t6Q+mHs7/tOlKPYfn0T/88ADzoGlXODc55cLgtf2lSv0Ud5WAT/u0R+0IrMkvlsPznEu9a8oyX/svL9yTqSOIzzma2/28fw+dvsoFX1PrgsfyzgLH2vTkTzHebHgiznrC3gyPol8YNZJ+OL0PcQNt0vUdaw12K32DTxbGEPcHj0tUO6bpMCvvn0gXwz7Ivas9kkn739Sri5xogl8zBX80OPjqBNvyzmf7RcKD+/1H7gQQr6irISnqKdKYKfPX3Jedetikav9Y6+cPvJRiaPWhQHwh04F/GS+8telrmUHz6BeV5n+jFJwI/3vARbnn6ZsE3vRbvegLpzmQdw/dxD7rWBTnxpYnfge35k6xel90i8w9rtip51Gi16NE6WE7xoDcvKAwGRwJvEd+vq5LXZYLRW7LtiP+Dl3PLg/9TJ1o7ofsYdDe/G7fzlHblwjr7dWjYS31Fgo+9MeL2KcCzOo93ovR54Tzkl+YjWqD47ffSN4Y8YNoK/iaeLHp0qTt0e5I/cPRej3/zQWf6xYBj0ty+GdZQqTVy+BH1qx1N/1NuXJa8Lvit7Mz9Oo+4b5gWtXTnMevc165ku9Q/zWRlJ/+COAulfGj/CtsQ/kufrnEHC7bW/8f0V39NkjALmenUb/aC74Y5x4iP5m+4n/aK9mEWeSK5J/nspAzx/Pw7drVGP+3vPhCRkO8JHd+YUfqNE3qVs1Xi5xRG39iTj1fiO8o8pR8LLOcnA2wIP/N0yIp/6TGin5oBLmTN/l60Hy4Vq36Mfla0qcnB8NXv/whX7a1cnE+XILweX3ozlfU7sjfc3XdZDLzuIyntWlczu5mqPZzylPqRNYFalfWE7DqR97cK7FTquE3Tcj/tjl+F+Ffcsf/+pehbrm2BDqEgUixL/tq+3o647qBB9O5NyBPqIsch8ax/ns0+2JW4uol1hTL5FvLKkDLq3hPbX/QOS6+TB88MMU1vXgADyjYi9+jyxL/3bJZPqV99PJm4u15nxbxWTOmY38g7z4wUf+XzEshH257cF+u1fi/NrnemKHmlth+mbLqqGvGu84H5L1F/lDCf5Po2kunO9y538RljacPvj+ajxvOxx5XI/POdf8I3LJe5a6cLFSOXWKm/jVtNf0P16lkQcViKGvkH0OO3+cc97+0T3Oqy82qUOncM5cufGN70suYh+rfuN377v4d9PN1M0nNqGONdWZc6Y+rdjn7p+41kVv6rZoeOT1c9hPTR/WUbQE/l6F/4GoDXfhvwMnUkcIWUl9c81J5Jx5iP2G5pzHc5qPXI53YT2vnfGvZd7Emzj+v6alZSO3xDTq+HVjyPvSqZ+YixsgpzZ/w7MmfeHc2bsl6P1PL9ZxdCfn7Fs0hnf8spbzCB8L0b+7kcNrvpZGj4F7GcdhLefTnaj7abNUztH+Xo06wuwi5NnLON9gJjSGP7fgXJgaGgpfXFCD90tN5X7ISPDRZRr6arqbfnKqO+t27cw5314XiWMdHjNv6T+Qw6+5kNu48th/OOd41NCh4P6CaPpixxajd8dm6GlnPLjk+S1n352pF2QH896IiXzXqQ/Pr8SCi/MOsp81AVwbleHcVdHR2K3DA/KY4pPok9XvS70prQD6L+OM3gc14b6LSl2gBuf79ZLwTmu5O324FzWp62WPYf5VD7AXw0Z//1VHH1tG8l0Rf/Kgsv9h972ps6uHp2HHVUqShw4YRL7T6SX45XICPBoQSl9rQ01438Sl6GuChp9UioX/he9DTy2ixO8NT+KC0r8QflQxEPs9nov1JqSAo5mp8KxJPcGbFS+4hgxm3e7v8SvlIDzLoSf9t3vki2YHzuFaaf2Jb1N/wd530be2Vy1g/ELe7HuuN3JIvMr4ozT0tmc16/NzIJ7OHEVeFhLH+PdH4Hd9WyGXapfxy5PuyK1RAvxjPed9zN/pq5szY5DDJ/DBrkq/zvp1BPY6rTrnOkq6g0fvNlNX6s/5PrPmdfrKP09lfYemUFcNas++jtfjnGUD+L5yKhH5LJyGnTjVQz+tN/O97xTW3+4X8HIW/88z+/1DnNnVHD1GFiXeJx1iHzcbIqe/c+Le5wHEqSKFweEZ8/D3r9SB7VdnsJOMT7la/Q8A4JgU 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+aFobUK9vTd9IdLt0pV9hIqPL/1JfswHDyAe/yJ9b/hjDOrBQcTxaK5DZVQw75iNynMh1KNDmZs0lrk14fR1jxAauZHcPYXW/Ggsk7aNYS5gBv3voL0ale+kg2ZRdyRwNwuVs2hEJzO3EtW90sWpvC8HzWUZ9DejOjeT+GfU1m7F36VhOeyNR+UUql1yqZ8vJf8nqrcr2PdqJfnUKu7PryUuk/au4z0GqrkyrkBrdAP5D1FficZetN9u5P4CVMvQeKGZ+nDU42T8DVqTnNLE/SQ0z6I1qZVQDXcRGlPbUX/HTWi/6clcuTdxgC9zlWg6/MlvQSMnWKg7hzA3N5S+QrTqUHUNw9XhWIzmDdTbRtA/MxJ3oNIpint50fTbaO2bQX1yAu+4hHZqMn0xqdRXofaf5cSTMuTvgnoWGrdQ0zN53300Yray92tUH6C1NZ+4cD/xnSLitBLmnI/wjm3HuRdTSvw5Wrdl7FJGPL+C+wdRv4TGxdPsfb+K+DRa1bW4uI7+y2i1ryf2bGT/FlRPo7XtIfWEZuLzqHb6m/wsp3Qxd6el0C5qlc7f1YX4IFqH2gmNNW5C9TBqVmf8yJt8OVq3fYX6B/7kz0hbBlAvDGL/BdQ3BpMvRu3dUHw5krnEaN75Sgxzy+Lor5tOvTaBd7dbzjv7oL4nEwu3sm9XDv2L8uk/h/bEEvwcraml3Ot1gr5rFVhVxf7ltcQ1qK+7Sv4Sqq1/Yk/t7+wZ3kDfkdv0dWniPSGPiBOclglfcxYqkS2JNVfiWNS/dBOaWzuj6Un+FlrZ3liD+n00X+3FvjJf6qf8yd9F+2yQUD01gr70cOqrI7lfjtprKcxvziD2WEXfJFSWZ3J3F2oP0NCzqA/binGoxmUTP5VL3+089t/Op362iPx91IpKeO9FNH8sJW5VRn/HSu73R8uupc/5Mn1b6qj/hubOBubKUbmLVkUjfS2ayF9vpr/NI/Ij0F7jtJz3oP4XWu7OQsVwwWzUjqPxC+pHvMl/7cueAX70Dw7Alg76BqK1NFhoXpW2CaHuFkbsHMGesEnoGkX9YzQ6xtC3CbWzM4i7xNP/JurNCeR3JHP3YrJ8Twpxb1QKUtk7MI35E5nMZ+aQn11AHFpEfV4xez1KqAejtvAIjviK+hq0P0f1ZDn5Vie4P7uC/laV+BaaE6uJverpO9HAnbY3eO/ZRnm/iXxhM/0t3D8S91I9hcZqaRsv7OgjVJ/1oy8WrfiAj/h9g6jfQ2OQQ6iEhVBvHyY0HRHEahSGov1rNPXNM5g3E4RaQip3qjLof7SW+tPZ2D6X+ol86h0K8HQR7zldgs2ov13JncI6rESlp2OF6JuNZosQoeISJtTvJgitn5PJf5gmNCauoj9FmpxF/1PF9D9VSd/Yaub+bhTaPR9hP+eVos/PRaisdhfqAV7YvsdK+ftT/wQ1Dz/yAWh7BVB/F+27Qcz7OVBD83Ikc3XRxIcXcD83DefkCNV0NH+SceBO/C2f+3eL6B9RjPdLuPPWEUxHtWMpsb9rhog7uAuVmWjnofmnp9DY70X9njf9778o1OcG0BcVIrSWSmPC6JsWQf0AWq4x7G8Xz/wG1E4kkh+VQuy6mLnRq9izPIt3zM5mz/u5xIeq6H++ifik+yoR13sK9Y+8hMZp6Ss+QiUL7XOo1fgJ1bgQ8kdjhGa3WIxOZP5jNDemEEel4ZCPmf80h3hFGXFAPfuXoLqiif2fPCKuUVcLl/rgBYdQOx4lVG7EC/XyI+R3PL9G+FxPDJcW++GkfkL1YIDQ/HcgLnNQHxWGXcdh98nUj1Yyt/ks+QvOa8U7C92F2jEvoXE9QKhPD6R+z0He/QB9h5w/Fn+fK2jaPYRqn37Efcfh7Mn0ZXwqVNbvJP7kFP2N1UJ95nmhNsDlE3GnTRuh6ekmtId3FlojPTG0O33ho6mb7wr1vtFCpUOCUHNKws5z2XdsIX0epfj6SerTqtm3EtVJNexxv0p+5K8Y2YhB7dYJlw8U6o7RQqVtuNB6mCS0ly6kr18G9c6Z1C9mCc3XN9J3bBP1qE/JbzhAfmYJ+Qy01peSb/ctdysr2D/9DHFSHf3jnDLFdyS6CM3ytkJ9vRtxpUNozB8itP8aQ398BH3h44SWNVGozIkUamkJ1Pcux7HbyM/LYW/HA8y9fBynlLI/p4J7i6vY1+MC+QU3mRt2j/wOpyyxd0ErobUNza9diMe2xdIOQiOvq1BJ9BaqO3yFdnQ/HDOI+S1D2HtnKC55k3reBPblRrInbjL5GVOY26Zz5+osoXbqA+6M+pA9penE2zOZMz+lf7TJ3mxUp+5i/3P/xUFoh6M59CB9xV9Q/6yEPeXl5Ed8x77VVcxdRiu9lvkONn2nGqkXNDP/odN6sa8A9f2thOp+FzzUDrd44LHOQvuQSn9Rb6FR6Uv+zADib4OIT4QS7wkXWsmTsM90obn9fepffUD+UDKxcwr3nNK588wa3nl+G/Wrnwu1bvuJ00/Q9+1JOV9Nf3Ujew8/4D1X/2HvzSfU5z61Qew520JozWwt1G91ECoP3PCXF4VG4UD6TX+h2W8kcw9DqU8YLVT3vEX9nfn0/7qYPedSia8u507dWuasTKH99gbixq30P9qNt//LncYi9q/4jnjSKeYunMFDNfJeHfdvXaev7S32uikbhb84Ca28VkKtGZW1rYWq90DyJ/2JfV+h3sHB/KMh1J+Zik/eZd+ZOKHZNAM3JzDvZRB3yyJ2ymff04fIv3IUx37Fnm9riYt+xnF/YMenNol74c5Ca15LoT7AITTXaEKj60TivlPo6xhD3zw0p8cKFWs6+55/T2gXovGfePqGzdqk/T9AHDc2 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eJwt1nlcF9X+x/EJqJu4XAU0g9QJSA3MDChvYDoBVorLFVwxdQRcAi0FV3CZwCXBtABxwWUEl35gZqBl4DKCuZEboCWaTmAuuJSAqeDyu4/zOn89H+/P+Xw+58wX/1BRFOWMFa/9D/tiiVD/6YTQcjotNJrKheoHFULzWBXnr10UKoPRPlNN323p97XMH0XrV1S21pH3onpOGltPf3Qj95xGPcMhQeQaVFKchcZl1Ce3EloxLuSfpNdRme4utFM9hVoDWu/7sWcXmhXvkFMCydukc4OF6hdo+IWwb1d/9hxB0yWM89WDOd8Xzvk9NF6OoL44knetR7UEzXKZH6LmMZr61nE4OYo989DOlu6S9dOoFsXi0s+o/xTP/H3U+s/h/Foi9Sdo5M7nXcuT6TuPym1Up6XSf28l+UQ6v/NjtLwz6HfMpn4zh/e1yGXf5jxsk0/fle9wewH7ehWSnxUx36ZU/t1OUN+C2n5U/5K5fRnvP1zOO66jMq+CulnFnsOo/Y7Ghmr57wrttBrm5tRyXoz2NdRfuUU9vQ63oHoINe96cpdG8kVUX2vCaocZYs7HESe4CLXtqB9AI9xVqO50x2toeHjQN0I6y1No7kTtCVprfIRKR19s8GPe2Z+5fmgdCcTfUWtAu1UQ9cFojA3GJDT3oVUjndCfuTJUPw0nr49ib0GsvA/VRplbx7GvL2rzpnK+JZ53/4j6WbQ6JXA+GI3QROavo9IyiXpnVOLm4wtpvKcj6hvT6Wubwb0/rcPu2fR55dIXjtpkVNfmsW+X9Ckarvm8YyQqvxcw90Ih9S5oDUVtH9rfFXG+oUT+ndF+jOaxUvLik7yn1Wn2nC1nT520TQXvmITKjSrmz1xi/m41fTNr2POolj3KX8zpddSV+9i1iT3pDjOF+9Hs7oiJzkL7w+ZC62kroZHlQh7kyvl0NPa5C/VaVDp6kOeiXeLJ3E00HqH2mhf37fahz8GXugea5/3Y8w9aVwM5V4LY83sw970UxnzVYOpfhlOvRdUtgvrXkey7Ip0+mnOvaPq7JnDPe6gMk7lvEvNH5vOuMSnMO6dxHoPK9nT21aDVIYO5SaiuQu0xmuvXcf4dak9Q8cxm/lPU9+TgbamSS5+HNBztZTLnorkuj73N8jl/UkD9vUIciMo2tH4v4p3bSzj/A61/lbJnVKn893CCdxScZO++cr7jklSpoL8F2r3RTJF50kX2nKxmz19Stxre86CW3OkWfXFob0TjSR1Zree9vaRbUVnfiK5NvGOrwyxxfg8VD0ehHYLmcFRvOnP+n+bk0agfd6HvHlqurpx7tqVf8aC+xpO8Da1zMk/2Yt7fR2gcQ/2+H329/dl3NpDcNwi3BONeVKrQvCHzPZldQ8i9peGojpL52/5Yg4Z7mPxOtP4K5z2vRlCfgMYKmR+j3n4k/S6j2d8H9e1oPxdN3V0agfYG1JrFMN8pjrlANOejvQWNK/HUXRKoL0H1O+k5NINmkK8msv/FJN57I5nzf6eQA9BOR6Ma9R6LmO8n3ZvK+zqn0Vebzp6uGcwPQXUhatekozLZF7WG87G5zDegOjmffLOA7FNIno+aSzH7F6HiXEpORaPmBO9SyjjveJLz++W8r00F9STU96H50kVyRTX9z9BYWsO5Xce5ez37J6I6tYl9xQ6zRXZxFBrNmmNHl9n8vq5C23anr40H3vPkPMJrNn8PNH714fwB2r49hNpZP/pC/IVWPNoV0o5B1GNQS5Q+DabePYT5ZFSdwoR6BNqfRNDXdigmoeI2mv5+aE1EMx3ti1HUI6LJU9Fag0oFmpNicBnqLePomyHdFs89PgnYH+3PZP4arYOo2/J8ZyL11CTua59Cnon6l2hvQeWUrC9M5ffZhrZ/GnNL07mvbQZZRTsQ1Tg0lsrzK2hq2fS55dKXjsaGPO6tR9Mxn7lXUC0vYK4JzVcLeddQVC8U8d5atLsUsy8etboS7hlfKveh/c8JzueXkavQalPBPRNRyURr40XmG6o5T6jhvLiWeu966jsa2XvJcY44P+Qi1B+g9rar0FyIlpsb9fEe1FO9hKqnN+fBvnj6TXzkx75R/kJ7aAD194KYm4TmUtQu9aH/72DeExAiNBagtQPVSll3DWUuCvVv0Jr+EecuYfQHob4YjYODmfsqnPwP2t0jMBbVNDTKUVGG8t5OqIxFLUHmW5Hcfz8Ku0azZzJal9FoGUO9XQL1IQlyj/R4gnz/DN79cRJ6pnD/eVSNNOqFaD1M5x1zMnAVqg1ohq9hf7Ns9n+JSs8cvrtfLuc5qM7Ix+6F3DME//f/J/ruFLG3sJTzlhXUP0flsNStEndVsc/jIv1dUBknc/cavuNgPe9r1sS7NqH1ruNcMb8QlVZOQnNZc6HWvAX1Shfc4yrUn6K1z43s7MFcJuqve3E+E5V1qN1GNcKb3MmXvhi0E1HdiGZXf/Lb0ig081B7hIoewPzLQdRnoOkQwrknmiGoTkB9PhpZqO2VfY+l1z/iXIlgf2c0cqVxo9l3M4p9Y6OZmyU9Hkv9bzTnxpE3JeBeVMYlsScbjZ/nc196CvXjadSvobp9Je8dlMHehWgVoH0dlUPZ9H+QS305ajtQP45mA6q1efjffO77u4C9mwrpP49WzV7ywyL2DS1mbiUql2XudYD9o0vZ9ydaUWV4FY11Fbzvbg1zQ6+y51Qd+/Pq2dP2AX7RxPxBVL0cE0WOQ3MV6idQeSJzNyfOM9A6hJqTq9DuLU1D5Zb0XTf6TTRPuWMHD/pDpRPRUry4LxjVT2ReLPMONB/Kem9voTGzK/UXfXGwP/1ZaFdLXwzgPAzV8UE4OYR96Wj/KvPUfuTYMLwkfRjOe0dEYALaFaOZaxFN3UNajlpsDI5MoP416gdRuSS9hkbnGfQ/S6T/4yTydtSvoBmdQt6IylnUAhax5700XI/2T6guSKfeNQOHoz4d7Z2olMr8RiZ9waj1yeZ8IhqZaLvn8q45qK5H/U9UcvLpu4xqcSH9jXupnyzmeyeV0t/tMPeloxJYRt9MNNLOsH9uBXM3UA2sJPeuwS2o/oZ60FX5719ajmrELfYvqKd+BnXfBnkPqimOSdyHyktOQns+Gh1exD6u1KeimY5GOer3UfV2Y18qKpUe9D1AZZUX54WoXES1qzd7NqA91hf3ofIH6hP96d+K+gGZr6L2TgBzbYLII9DMD+HeM2jcR+XlUHJ8GHOfRMj3o71X+hTVedHs24+2cwz3HI/Dtgnsm4FqGSqJSZxvQnVyCvcYqJ+Xudsi9qemMZeQwVzvTPoG5tK3Ge1LqPbawvlXhdxfjea1YvrHlLJvCZo3pW0Py7+39HvUOpeRY6SH0FpSwZ4fUXWqpB6HairqmTXUu16VfwdUDlyV/55u4SJpbh19H9Tzrg3S79D2b2BfDGplqGY1cV7kOE/sV5yEui8qn6D1GxpzXDnPl85yE6oFHuTFXsxtR+s2moY350t8yT396fs/1PsEsH91ENmxl1AbEoI/oP0ErYGh5Elh7DuNyogIzs+jsmQ07/sqGp9PoD4erbxF5OxM7t+Pyupc9N3C3GjU90tvobGvkL6Wu7EjaqG75X40n6CdWMq+82g/dxg/QXU1ak+l58q471AF+2pRaVWJs6Rb0DxTQ7/bVfaFoLYDFecG8sIm3l+Neq3jfDF/p7lQqXPF8x5Ce6uXUD2HVi9voV7pS1/bbvSNRTPLX6hZqHYMIE9E+2gQ8x17keNQyQshn0XrmnR2KHt2oDYsQmgsR3VEDPtCZtC/HZVzUqdF9A1Ea7fMEcuZK89gX0om9Vq0W62irkov5zLffAvf+T7aX0kfoHGhkD2DdlNfheaLe8g9UJ1QzPtWlPKOg2jdlA49zPcmo3rqF/IvFcw1SMdVMr8Szdwa+k+i1v8q92aiMr+efBAVnwbmTzbx/rDH7HF1WiDyO2jNR/tOc3I7N6GairbnK0J9nhe5VNrVm75INO4HYWOIUFkVRt/QoUIzGa3Ph9G3bTTnd9GKiWHuAtoFccxNTCC/OYN3rEKzFK1uM5mzpOoi7ItGssy1aAUuZt8vqB9M4zueor0pQ6gdRTMkk75pqJxH9ZNV1M1s6ntz2f/GFsxEvRrNc4V4G613d/O+zWgnF1P/opTcgMoztKoreFdsJfXnzpFLashdr3LfHDQPoXK6Hts28O71jgvFeaX0OSdc5ibUy17CUG+hHY/Gr6gFdBMq4Wj3CMBg1MegmYnaYVRvhqB3KPNDUKuQeeoA5msjqPceyr2VUodhnE9C4xkqb0aTG6VTYoRWiXTkBOb++wnvehCHDjPo/xyt79BuO5P73WbRtz+Je5znkS+kMNdyEd+joTYFzTVoF6PVeTHnP2fQf006I5P6IbSv59I/aQt5HaqnZNZ38I6NaHvvpn88mr+hcqmUuUeov36Y8xFoj0c9C43CChxWSX0LmrMuoctVXIDad2gl3+aeVxvIe1Bt8YIh7nFHvaezUGnnQr2PO/WhaKeislnWe3bEwai86im0PkAtGfU3fMg6qrNRz0NlvS/nLfyEZh9pFKrzZHYNJH8gNVA59r7QUILZE4HKUtQf9+Nd/v3ZMwyVFageG0K9WTiq0l7DOVci2dNF2guNQahkoXprDPc/H0XdF00N7SGyvgktz1j2vYv2RLSSZH42nf7x8eiRyP7JaHdYQH/HZO55C/WXU3mfHyozZZ6azjs3S92ymBuwjrl4NFOkW2X9jRz6h6IxW+qfxzuGoTZN5k158ncrYP51NKeh9vQn3hVWRN8sNJodoP7vEvZo0jQ02hyhv+k49U4n2OuP+geoxaEacoo5h3L626EeiOp0mbUqzqeg9XY1ufEmOfgufV51zPVFI05qomI9IhuN5CCHz8V7VqDV3FFoeDoLzUC0p6CxWboXdQ8X8gDpDLSy0CyQuWM7+nu4C5UI6SzUN6Dh6slcJ1Q+RG0+2qbMAT7MxaC1CNXKt8haIPPL0ciRnkP1w2D6vkbDsT/7Z0lL0Ggfznumon5vDPevHU+eG8WeX9GcFYth8dTXof4t2mMTmZ+N+peo7JGGJsvfWzowlb4oNLPQ/gGNB1/zPW+nM78C7WzUe63jvji096DeO4f6dOlatLvlsW82WmE7MaCA8+GoL0Bt6A/cG1RE/hjNbiXUfzxB3aWc9w5C5SFay6vY9xRt72rOF6OajtYemQfWkpNQ/VZ67x73TKzjnhVo56D+aj1ZbWT/FGkmmtvR2oe6o0Oy2NsF9Qg0YtHcIXNLZ6H1PtqRqK5AYzdqt9ow19eFvl7umIVGqCf3mGj09GFuACqDurM3yg+/Rfv9QJyM//v3zp4B4ezJiaT/JGrvRFGfi2YJWi2i0S+W/shYuQ+149J3PmX/u/HkDFROohE4i+yayL7xaC6QZqPeL5n++aiNSeV8EVpbZf4jnX0B6+ivRXVaDnYqYD4X7V+K6B9Xwj3nULsvffEEc3fQ6Fkm7y/nvlVonJb5PtpBFewdXcX7ZlfJ3w+Nz6q5L6da/l6o3pUOrKV/CSp5qPeoY98w1OeifUg6rJH9X0uPoDndIUXk7f8SKuHOQn0n2iNcqO9Be1M7vOouNEs9hZa/D/VAP6HaI5D6a0HsG4VG92D25UgdQ6hP7y/UvkW1BvUvw+krROsEqjdlbh7BvVMicTMq8VG8bysaf6A2I5b6yHg0pedRTUhkPgWNSzKPWsB9Ucn0t0rhvuGpzN1BZUw6+R+0e66j/yEavTbyXW/nUM+UZudx/ncBphRRL0PboZj9MSXUd6ByHe1mpcwFnKA+B+2NaP4g67+h2ucUJpfjSdTOVrHnL1RmVTOfh/oF1FrWkH+olb8var/UYbt69lY2yvc95vcb7LBIzE1F9TdptPMi3o3qGrS15kJzkwtzF9D6xh2XetK3D418H/IFtIr9mH/OX6jtCKR+FLW5vTEtmPndaI7rz3t2hPOebVHs3YNmz2jqO2OZbx3HfMk0zs8m8t7pyfTlodkyBVsvYd836dwTmk3+Ioe5b9C+Iz2ZR/3GDlz7Hd8xrkD+XmhlFLH/LmotS3hXl5+ZW1LOvl/R/PUCc6FVeAX1mmr2dr+LL9ez55UmcpPDYrH/XUeh/fHzQmuQs1AJbk49Gq1vXYRqC1fO+6E5ReYv3Tn/Aa07aKd1pH4azXpPfNSVeqkPOrwlNMr82HcXzVOB7DsXTD7wAXtTwulfHsn5ijHsyZqFA5PwRjLfWYfK2lT2NKDaKk2oj0QlN518B7VxGfj+Ou6dsE5+3zd4Po/+UwXs/baI/ADN1BLmnUqpR57gnv6nUD1Hn13F/uvV1Etr5e8gdapn/s9G+Xdo4vtDpTsdlojzC2gNcBQqy5zJe6U2KoddhNpSd6HxF5p7PYVqD1+h/a4/eVMg505BzPugtiiYvttotQihf1l/+tuEce4YwT2jRvLOe5HkFqPZs1LaJprzeLSyUDsbS24fx/lAtDeg+SgeqxO53ymJ7Ps5OS+ZfBMt9xT2VKdyfjidfadX8a4z6/jOO6h/mk+eWUiuKiL/q5j5Ty32rpQeQuX5MvoD0UxC9WI195XU8n2tb3Hv6Tpy+3r2NDosFf3PnJfyO7oKrWp3odnSg3zLU+ojNGJ8mWvlL1SmoroyUKj9jYoaRL2XNB6t1cHkeSH0jQ1j7+Fw7h0Zgaci6X95NHmsdEo082ti8Uo89enJ7HkhW6i3ymX/kTy+r2U+Lt1Jva6A/Y+LmLtazp78auZ31dKXU0fObuS+ow5fiP5nPkKtc5BQ/UzqFCK030ZjLmqdwqhfCccO0UIrJI6+BdlCvXsO9s2n79kJeV+5UOlQwb6mOqFZ5rJM1Je5CrWXPYT2f1Bv7UU9He12vtSj/cm3A8njIshVkULDjhJadiz7jSTOD6SwLyJNqGavxN7Z9F3OwcBc9v6ZR//RfPb1LWTPWTQGFnM+pJQ9n9Uzt79JaL7ZPFX0/dtVqP3tLtT/8RRa1zoLlTxfoRn0JvUR/hjSU6gGBAntYaiNDmHv2DBMQfujOM5XJTA3II368AzuXYL28mzm0nO5f1U+92k15Bu1ZK965j5Eq18D/uyaJuZPegjtZ55CZagX9dgQoT4xjvrs6fQtTRJq/0mjb8cOoTq4mP6PD2JEKf1+NeSet3BpPfOnnJeL32uul1BLWLqce9KEeuJKzudkCO0Fq+mzLgutc/WcVzWRbccvxXuGeAvVAl+hObKb0NrvL7S/D6IveDS55zyhMi1DqAdkU194BV96RP/zLVaIPQUpQj1+tVDZj/aoZ0K1h/dKce+wUNwUJtS+mUfeuhgbtlN/8qPQ+qRSqH92CU83+0qcdxwktN8OFyoBw4Vms3ihkZMjtJyKqPcukX1VQv36HXLGffLmRvq0p9TvP/+1uMe1lVB38xOqQZOpO8wUKiNWUI/YJbQGHyC/fwR/LGN+eot08a7LvkKr9L/YIVyozRuOr08UKm/GCvVlBn3/pAnVqcupf43q+EzOl2QJzaBt7JmWJ7Tfsuh/WMpe3yPUB5YzN/Eyc3Pv8r6v6tg7rYkc/EKGmNvWQmiNb0XejHa6i1DP8cRKX6E204++KYH0ZYVmcE9/8rRBQnXgEOrLI9nf/2PmF0Qx/1kseUk8+SDqvWeQFyczd2wRe88soR65grwtnfOkLPaEruW+rTlkfRf75hYw128f7xp2gHr7SuanXKY/HQ2vR/RFv5Ap8oBXheaOj4TapH5CJT8Gc5dwHr9cqM/bSH7f5HxqnlDt8K3QXruTvpVFQuuwxd7Nx7jvq5Ny73lc+xtzm6qZS6glV90iH7jLfquOPQdfWCWyR2vM6ibUj/XCo8FCowatsr743hCcOlyodB+JjZFCbdtU5hOmUd+0jP3TVpGV1ex13M6eFahu2sV5uwKhHYNGGZoZe9j7+w+c3yiif80R6rfQ+qUcd1ZxPuMG8y//Rd+Jh5xfaiRvcs4S+V5roTaqvVBZ7S20O/tTr/2PUD0eSPYIYm5JX6H5Z3+hsXKAUK8YQn31GOaqosj3pjB3Zxb7J8wlz13FfOts7v9mM/XntuGL+Zy/toO5rt9T72KRj57g3pdOyXec5Z0/l1M/co769gtklxrmyh5zX7DDapFvo/GSo9A6/ILQ/N1ZqEa0FirDXclDX2FuVwd0e5V62xChtiiceccx5MuoHpq8Wvt/CWIRYg== 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K6h0qyQXWin/XdewfyKasah41fHO/6AZh8b9X/GFJnLvo56HmnVf/v9pQQPVjQ4rRa69o9DwbitUfZyE2nw0NqOeK/tjXagTUNsuDXejv1D6MVqjPaiXoboPtWsv0u/tg+OkE1FNGihURgYIzRg00mV9FfXBQUJ7TJC8B63AEHLxqHYLYz4WzUWR5Peg9v577AmJI38ILd9E5jagfgyV2GQ8gWZoGvORaGah+s8Wav8MzsNQmYvah7J2yeaeAFTnSU3UTqCdkIs7UO2bzzsXofKJrP0LqSdKV6A6+Lj83YqpdTRXod6nlNqnnPMTqGVV8r77qPz0LfkNNdQedbgVtaNoTmzgvStRPyi9+Sf5wU28dzaaG9AuknXPZmkLuXlobEW7GM1erdzr4JAscr1RGY9qDNoH5HkHJ+rhaLwj642o3OnE3GgXoTYdlWFuzG9H7YZ0lAea0me8hWYPH/YaqJ9Aa8ZA7tUCyAcEcT5aOj0EcyO49zJaoZH0l6BRhurTUezxi6aOR309muWoDYrlfEgcRqCRKM1E7RLqwxZSD0/kPBKtRFR3oh2STH4ZGjlop6bx/rEZWI/ainzOexSSH4HqpWL2zy4l/3QZ+Tvl1IMrqLMr+a5L0rvSYVXy96khV4ZqbB3nq1DdjdprDdyXimq+rMOaeNciVApkXYrm5hbyF9D897EUYZyDUH34OA5vKzT6OQmVcWgeQXuyC/Ua1NO60p/iRl2PylkP6ka0/HyE2h60dg3kPDeIvmMw9w9Da8+rnB8M4b46tF54g9zGMN55DNUGWT8VzlxMBO/IQ2tcJHt2oL4PrRvSiDjmc1H5TtYJiZyvRM1GPSqZfW+nkbuD+l8Z1IOyeVcrGu457PlrJ3u25XLP59Klhez7HfVLxfQdS5iPKmXuIBrlqDiXkf9POfuXoHoM9e/RHnKZ/PBK6lg0DFlfQr2qhntW1PGeAlRrUO9Qj8cb6HdrJOfWxJ6LqD/bjItbOK+W9myl3/FfnO+QKvbkoV6L5tG2QiXGSWgtQG2H1HQRGqM9mMvzIV+Dxm9oFw9k3sEP3w8gdxD1DUHkj6I9NYQ6NpJ7dqE6OIq5abPpd4qhf+599I9jbiHaXePJdV/NvXMymA/Oof44F/9ATc9nz2q0LqHxl6xvH8BBhbx7O1pFqFVLdxSz50+0nirlPQPOcf6gnN/3u0reM+h/1Hlol8r6Wg21WzN7hjiuEv1ZjwvVt5yExkhnoR2J2iwX6oPSp1zpB0nnoz3OjX1paHyGym+yP7EH9Xo0Mj2wRPqt9G9pS2+hVebDfO5A6q9QWRQg1CvRdhhB7s8gchdfpf44BFeHke8bzfkbSexpSWZ+Rxp1x3TyEWgP3sjvsyuD8zto9sik/06m/D2y2T8T7bY5+Pt/mRtaQP5KIfNhn/GdB4rpTy7Fn2p43891zEXWk8tAs6yB8zbN5ItasH0rrndYLXL/Q+UBGk86Cq3PnYR6Pdq/u5E74YEDfIVqdgD1YbS+RPXxQPalBDH/BWodgtmbFsL9P6LiEkq/TTj9F1DJQXXiJPY7T2HvJtQ7RVFvl1ZGc1/nGO7bheaHcdQtaA9KxPpEeW8Sub6o7Evm3g4p1OczqD/N5p7LqLxXwFxiEfuWf84++xS5QadxDJpz0bp+ltyVcnysgn2/1XDP4QZ5j/QBmi0Oa8S8o6tQ/9lNaHZwxzseQm2mL7WrH85De2MAc3+gFRfI+eRwNFCriBAq06cwFxVFvT1aaJTGsaddErWyDN9PFqrRGdRtc5ivzWW+Qx5zHQu4v20Z+QEV+H0l73Cox51N+FDqHbhW7I1H0yFYqAxArUcoXg8jF1RAbkQZtVJB/ahSqKpV1B61nLc2UT/RKtT90Ex1XSe+w81dqD3tKVSafIRGF1+h6uwn1Oei3RggtKaGM1cbQS5qCtZFMn8jGr9Iof9WOvsPZQrNl3OYv57L/qA8rM/HtQV4AY3Xish/g/rrJbyjv3Oa2Pu0K05C/Q83ofHQQ2hO8BNqEcH0F6E1LVRonw8Xql+/Qz06BrPj2Tcuifn+KeTeSOd8UiauRn1jDrktedRzynjX+VreMb+R8/Bm6vOu6eIdF92F6mBPoV2JykhfnB0jNGPjsapAqNcUMT+uhNw+1CeVsW9d1HqxL2GNUF+Ujos3CbWlmdSHC4RW/Gn6V5uFam0rej+3QfTbeAmtMNSP+goNlz7UJ/2E5ulAoRqXSf9CFe533CjemRUuVHuOF+p7oqgXFwlt/RG199BNYt/YUUJrJWqNUUKjJV6ofp8kVLqsJbf9JLkjFeQcHDaL3HOo3Jgs1H0y6Hc+IbTaFAuN3eeE5qAL5P+6Qn5MtdBefJM53wZUmjhX/qZ+eJ+5jzttEXvf6CY0Vz1HPcxDaAzoTb24n9B+caBQW+PP+fwA5voMx6fj6PeSPkoQ6l5pzL+8kX39Msi/cJj+4FPk4s5RT74sVN9QMsR9XdoIzYAeQuUPlXq6N87pLzRGakI7KggnvypU+8zivH808wNi6V+PJ/fJelyxWd6zm3uX7sWQ40Jr2XnOl5XT33CZOqqafQt/YE+qTf5WI/cF3sbxt+X+3zgf+5C5JU6Z4n1uHkJln7fQcnlRaN7qL7TbviNUNy2m322JUM9aSj5zDbkTaZwf3U5+9F5yHf/L+bp8ofb4Se4rK+f+hV+T21lJ/3wN/e115O1G5p/7k73jum4V+c/chOZwL9wXJLS6jBIqsa/glNE4eDy5rbHU6YupN37E3DOf4oZCofHmWaFdWMl9t29K/xGqx/8lP6D9NpEv6CQ0E7vi/1B591nqMjdyK3sI7b99hdaVfpy/5U9fHypUP0Hjh+H43hjyp94QaivDyJW9TX04Qqg36+QeJXHeaynzVavJDVuLg9K578BG7vfczHxrBu9eso3+v9nki/PR71P2BhSyd9sx6iCLe/OusseqwQNNzL1yF084ZIl+zLNC+/LzWfydPfDHUUKlNYTc/XcxTKd/L4G5YYuFZhxabQzOv0im77lKaHy0lvPu26gH7qD+uTiLv+NJHPct57E/sufYfd6zyWG72NfXUajvQ/NcB6F1+Tn6fV4Sqq7+QsU7UGj3nUpuri407s2g/2A2cx9E0184j746f7v2f5sZCEI= 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TkvZd2oZfc9kMBeGWjSqa9C4uYp6QBZzs9DKlXbPYS4OlU3ShDzqa9HuW4Bz0HhxF3MTUR/wHf1BJdybjuorB+j3LyU/4Bh9oyu4s7wa02qpn0B9RANzqWhvR6sSzWcbyc9olHukxWicQXNWC2ajWiItaqXvAadUsTcctZmoFsq4Z3uh8gYas6WdXKj3lo5DYxUqe1Gd8Ajx313Q3Q0j0ZrUFbt5sucV6TuorEOr61NCu5+3UB8q3dWHu75+1N9FfUcAcUgQe7YOIj9ptHxXuNBMjWT/JjSOy/i5ybxjbjT5QlRLZdxzOnvnxhJvQuWojNX32f8S6n3imf8Q9QIZl6P9TjJuReuhVOphqC1AK1/mRy6lf1gG+XQ0vkQ7Lguf2IBP59H39FbeNWQX+Y9L2H8C1cf3ESeVYo8ynHiMd1toXUPjxXLqw9BYW0HfCelN6clT3Ks8SxxdLX9PtM6ifvg875t2gf6ZtcR5aH94Ccc2cHeJtBCViEb2JaFtSctbyL/olCbeGY/aGBfiOai97SbUl6O60lNo1qHR4I15fkK7tB/9k0KEVh4qzqHsC0Zz52jytag+GEY+M5x9xWgfR6UBVSWS/XFoZ6K2FZWdk3B+NPsK0bgoVWOpx8VTz0P98kfsm53Mnbmp1Cdl4DU0mrPoH5aDLagO38D37smj/80C7uxH48ed9JXsYu5fNLoVEf9SwpzTPvJBpczHoL1Dxqdk3KGMe0nH6N+N1lk0HyknXlhBfAKNqmp8t5b8WdQ61hFvb+TOcTSSWnhfFZpd7rI31SldzJ1H87n2QuM7VAJdcB1qyW5CdSOa+Z7Eh7zxpvSaH44PEOrfo/1gIHsmDMC1QfSVSW+jaYbQr48mfjecd21HZUok8cZoHBBD3x/TmRsUJ7SsD+m/Ho8+CdQz5/CuzGTm41PpL0TtzhJMyiB/Bo3IXOY35+E/aOn51HN38R13UHeUyD40b5fSV3+MuYMV9HWsJH+0mr6J54iXoLkD7W5NxC85LxF3Qh4UmmNcsIerUNfQ3OFG7OOOw9DO8yT+G5UxXsTbvYVGM2plfsSd/IXWlgAsR80jkPnEINwcQv2JCN43L464cwL9i6XpKdRbUpnrl8a7EpZSn5tBfh3qVWg/kMl3TUBt3gr2m1nEf6M+2EGs5WAzqiPz6C+V3kL7723MvVjI/uO7yG8vYa6ulLi2lrmkOuLSBt654CpxeSO/l3MT8dct7P3UaanYW4rWeVS+dyF/0G0pd/xweYDQLkPjlyCh3i6Y+iOhxDuHU/92NHt2vcZ+5wjy4RO50zGK/i8mM+8aQ3wyVqhZ8cSPJjBXl8yeTim8oxfqBanM35R2SyOfUYCzC7l3sER+D9rJB6nvRqsJbV8Lbx+i3vcw71mHtlM5+zpUUq+tRZc69rQ4fSzuzGgvtDq6CvVf3YRaG5rR/kJleqDQXh5E38vBxGtDiENDmYuKwHRUnoliz6F4ofFZMnePofZQLn2PmeQb8uh/Pp93PVRIPURaWMK9UfuIHyhnz/Va5m40kB/j/ImY9w8UmmFozEPdN1ioKKHYF7Xnw6ifCyeujRSql6LJR8ex590E8neyiNvlCu3BhcQrpeuKmCs5xr5L0ofKeVdTBXWfSuY71zHX0kjdqZX3fYjqXrTLnJeJPZ5eQqOnj1BZgYa3v1B1oN4xUGi6BxNPiqDv7Hji6kiMicKL0fhODNbFMj86jjg8k/13VpMfkCu0z+UJreB83ldbQPxqGf0H6+if6pwhnOOawXe7C5UbntjiLTQyfeiLDCWODsNVcULt9RT6n0sTqmGZ1Mc5hFYaagtyuTOthr4uTcxF3qI+wT1T5I9Iz3gJrZd9hNp7aGr+xB2DhUpUCv3zUKtPE+qvZDJ/I5/86/uE9r9oji+jL7qceHsle9J9PhVzIyOE9hxUF0YJlY/jiKMzhZpRJjR2ox57lTiuiflKNM+1Mn/jHn13nJaLPttZqN5uL1SO9BLau/yF2t5A4sPBQv3nSqH5a43Q+rCOfKV0f+gKsa8hTKgfjxDaEzdjPGolXxMX1witNT4rhY+OFWovTCI+0ISlrULzTKfPxN66bkK75kmhMfMl7D2IfN8QodpvuNAKCie2Ypg/O5P8hgX0P7SBeH0Jcdtv7Ks4R/65S0Kzzz/EH7Swp6WN/iedVon85QeFZnUHoX2/C/kPPITGM55C1bcfdZ8BQuXpl+hrC2P++kShVvsB+dZE5scvJe7/CfVXHUL9za3MDdnGvsBd9E0qpu/JA+R7lHK36TDv6PcTc4+W059yj/5RTlnCMe2FyhsuQt1pYBbv04Tq3hDqW0aQ3zkSu48mHzKWvvBo9vWeLrR0NLVY8sXSx+KFxp5U+iJWEHfPop6Wzb5J69i/aiv16j3030B13QHi9FLeveAIfcXHmFtaTvzWaerTLzD3po2PNHJvKlrVjzrEe6d4CK1hKvHEfkI9I0Coxofgl685+L3DhdpHqO6LYu7DaKGxehbzoe8L7cRU6kVp9K9fQzw8B7NQm76e+p485lq2su/aHt43s4R6tx+oV1u8J6KUPYk/kV+P6rZfeMdp1PIq6F/2L/XBN+lf4JRNPxrXPYT6Mk/ivb2E9hQ/oba6H/nfQ4SW/6vE/d5gzw/TmR//PvkNc4XmwoXsWbuCPRM+Z36rSf3bb5irLKWv8ih9o34jvl7Fvq5nyR+/QDyynjmfP+mb3yxUgh5fLfZ+5ylUre5C+zOVeJk39Rp/4oDnhEr5a+THjxPq70YKjad05i9MFVoDE8nPnkPfxFTqC5eybzlq27LIh3/O3iXryfcxiceg4rKDveXFzJ86QD3MIs6oYm5UPf1z/6R/byP761Hpe4v8fpc1on9+VzyDaqPPGt79MvndQULbEUz9TY36/TFCvf1E4vSZ1J1nCa2eSeS/SsadOeQ7fUHfzg3EShF3Jh8Smn7HuTfvBPXNv3DndIVQea8KV15irttfxH636B9+m3iqslbcrXMSWvOchfYX0mtS345r+X17CfU1/vRvG0A+M0SoNQ1lX/Yw6mkjqD+my3w0+R+ms7cWjf4zidPRLJPmxlE/+Z//D9g+8Xs= 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eJwtnHVYFmkXxscAW7EVQccWMTCwxRETRbAFc7AQC1vXYtZOFOw1GBV3TSxskcHuDrAYUEzUde3+Ps8P/5lrmJknznPiPvc5r4qiGDEHCzZV/v/P3Xyh/f9ihW1oKfdt9z75fa9li3srfy904Lvcn5xV/fdz7W6WtN/35seHHr/v9bpZld9XY8ucj7//rgw68Or3Vb/n/0neu/I1v3zX//bz3/eGQ3zK76tau4CMY/uG/5Dro8Ff5fulmWUcddc0mVcfVkPGU1L2FPk9jukZJeMpd9u+lPUVnlVJ1hHSr5T8/XDaF5knYGktuf/wUMYzgp/Kd4ZvWAlZj+tU+d4Msl3kfuksxlu/J13mT3OVq3LB20u+C3ss76l1/yoq1yPX/5X11RiRU76vNErmVXcsS5W/NwvNJOs6/VLkq6ys/172GeSeXfYRuVLkq/7oIeNo+oBn8t3uFFXmq+Qo8+hbWop8zJ5Fvsn3Pl002dd2Z9mfFrmYedMvi/yMIh6vkOsdmUcLe818m8fLelR1A/sL0uTczDl1WV9yZO7f93b5IPledelUQOZ3WCJyseNGiBy1W1UcZdxlY0VPrGpOOZHrNrm3x3ghx8+rZX9m3YKfZV81W8h3arN7j+S9eorcW+Vfynd6rxNy3nbghTcyz8+8si79j0a5ZL6hisxvZwotL/Od+CJys50TWE/QadFnbach4yiPj4p+WaXdRA+NdAf0cfxD2bfV+4KsT189Xr7XA2eL/LV5SyvIOs89QV5LL4n81NmbH8s42zL7ipya3sdunofK+s1PuxzkveTisj/9x3rsYUSnqrKuw9Uzy7kp92UeNcYJuwla+5/Mu+sJ7/dtKfswh38QuRmbw+Rq55zTSNb9eWshWe+YLOi593fG7eSUKu/VrCLr0rYUkXH1zK7IIQQ7VxNdGsj641I+yPe1Nor9aNFL2U/Vo2InVr75oq/K5SQZR238FD1w+VZa1t2ttein4dW6uew7YAPyapkq42p2JplHS2nFexcHif3o/u1kn2avSyIvpdRn0TftWDE5D+19BHo5d6vI0WynvpZ5j8SjN1Vmyb3ieILv5p0X+7AaOMu9Va44+lDgBed7aKycm73yTBYZ1614MezmP+zX8Z3IT/3mJvLUX58SOarp7WU+Nby7+C3r7FD8UkIr9LVhCOtZjn8yI/PwvRUs4xqLv8vVvLaN/Rxw7i5yPdvgnbzn8Tiv7P94Zt53rM959C4mdq49zjjvE6NF/sqRJbJv80us7NcY6ix2rFmhYqe2Q86acv25X87Bcrwj86hntqPv19aJ37X8WsnVmOnyS8aL6PtU1mP4o5f2Uc6x3FZb3o9yFvmpq23Zr9W7Gn64uiZ2ZhR3dMJv5MFOZ2jy3O6Yiv1+nyjz69kNkbP99KXYtxKySuZVnQbLvfotgnn/K40dpLuJPzKHFEXugSkynr19g5yvUe1P+d7euUrOQ316SeSjLnCR75TGbeQ8FJ8xsn6z2RV533pSTJ5rgXFiF0rm2ZxT5fpZ8EdLsStX/xwyf/casj7r1oPWso+4ZcS3Fs857967q8l8UePkHNTuH8tg550y7LMD+z8RK/KxAt/hx7yjRN7K/GPil+yYfWLnyi8n9LfWIpnfCO3E31+FiH4oa0eLn9fe5RJ7NFqWQa8HlJP4pz85Ula+7zhS7FfvXkr2qXaol03eexjAOCMqEI8HhGDfIXlkPVb2quj1/n2iZ8qAj8zfW8Gfb/YR+9Fv9cCvL96HH+7/UeY1z22vJ/sf/lP8lJGYVfyfdbIq+y20AL825oqcgz5tPfPOeCPrsJPdRJ+0BqnEqf+C5H1ttCXyUFwaEF+2lZK/m0G/qsjf81UhvnYrLOtR3x1AL99PETuwK9f8wHdzRO/tIX3Qw2k/5N4q3EfkqMWHyd/t1iuR15PYknKd2S+r7MMyiK8+fjKP9XUq8nctIfprrB4u69Bqbxf5Kge95XslfYrIR1nM+Wu1jqAH88vKuGanVxJHzR+f8d8/W4m8bb8VyDe2oqzfTHtVEH/ajPW7vZf9mVPv/JR9D8uJnJe6oocvPMQvWP3+QW+eVxa/qxU6wHmGJFeW977N41xr+rCfNtlFfvrfP9rL9fq/8r16ekkdeT7hQB7WvVfihboO+zUzJXSV8YsEusu4BXxk3brxVezfOBWBvU7shR/ekybj6tVzynmbnhWwG8d5gjfN1jGyH3vxFewtfZ6cv6r4gc92PUKuN+8T572zihx1e47ITRn1h9itffogfjZuZVN5HtADf3stn8QvJc9FkZdZtoDEN33h13Kyr/mzBC8qqWULy/OOobIPfXRFmcd6Z4ieqyXPcZ5ZU4lbVtlUWeclG3yoT5Xn1tuC8r3psQp899pdrsqDRdyHuGCXufewz8KHxX/p2h2Zx3L4hry8wvBfXi/Qi4kvkW8lJ86/90GRr7pwCzjj8Bj53p4wSuRkXbkj7xkrron+GHP3o2fJIaL3+oKRoufGi37EmedOnPPE7KwzGP20ngTKvNaeDeJ/NbM7uMO8hR7/ESd+RK0xWexV3T9N4p7hPp3zeFOe+LVjJfhqf6LsX993FZyQ2gk8Ws8XnF6vveQp6pLZ4N6yodit1ynJR+zPC5HHo5by3Dr1VtZhfnJlvNqlxb8qn/LKvqywYvK9ovXlvZu+xKNH0dxvdhUcY/arLO/pZ39wjo7VRe/0+BCJK2bW5chpzmLk+qwT+H9VV/nOzjlM7MVa0YTz7/UJvFl3mMhfuecDHjjYQb5T7AOit+bmAPyioyl2r97f5Srj/BrB8/PkWcaV8VnQwzrI5UAu9rXuB3F0hyu40W+S6LVSfoHYsbpvNvE8sTf4ffMhcMO9heRfT/2Ky/oTpoCn2o5hP/vGy3OzZnORt20PYZzu6xvL84/dwVc9gmR9agEP9Pp5KfQvcgfxcuomkbc58wz+I2IKfvPTReJ52i30sN96/Eijo7zffSP+fu5X5D3rE+/v2YZ/j4lkvdWaEcfDfURuduHZ+JWdzcGbky3kr5YR/6mM+NVM5ON5HvsbsEbWY6ZeknNWbtZDzvuOiF9QT1UQf6FVTRV71Jy9yDdjuwuO0/8AX2mTP+PXdmSS95W3d4hTic2w537uoj96mdYyrp54UPapz7uHHj3PJXZntz1fgPO8Shwfn1/in1ahKXGx9VGxE+OPfODGzIsFdyhl2jrg1xOId5PXyfv69IXin+wH08QPmumbwNXx3thzpQTxI/byJTKOuWC1yF1dbbKfNp3lvJU/m8i9lr4ZeW1KA+cmlx4qcgrPIn7IrrUNPNXpp+Bb26urxD/b268mcaalyMHeYTHfolfYYZ0mHUTvp7QQ/dHy9SFv6rUJHHFyGPo08qfkz3pBdzlHY+c88HCLhuRJ87/XlveUCbI+rcMqzqu8L/b31wvwvnVExrMuVxA7sZZ/4VzK14VXOHUDv2nkJZ7V6s3+guOJu0UT4VFWh+C/t3cR+9ffdYKHqLUWf3XRH/yV8oVzrdIT+c7Ihr492IH9r2iLXMZxPlbjg+Cr797IL1998VP6l2T8y7VRCudyVPRcSegJb1O+P3Gx0RjspUYo+PrsMMZbkgs+oN5d8pzbpURe2uRu2N+uOrrIr+8gWZfl5QePkXwG+/m0CFw66LzIUxt9V75Tr00Q3sLu1txT5Hm3vvgha+cEwa3G3mB4ig8jxL6MVivBKwN6CA5RdyeAn0dm5FcnvcHt706DQxcZImfNsYhcFdeu7O+WE3ry8KWMZ58oVkPWcSFS/Kl+ZBh4LfI8+W7CG+J9mI/YiZEUhfzzZCWfedOM+LRwKn7H8wLxf/oI8NTsINm/NjNO7M0oHIQfiO2LP2peSPaj1O+AHjcH3xmhI5H7qlHku3+5i50YX/qQ7+XQ4Yla/BL90i5fk/XpU461lXv1pbPsKxW8q8dWln1qgZ2Q++sTsg41/oboh1a5P89doiT/tzu5gxv+zS3x1R7aXORhhTQEX7fTRV52x3DwdKMT5EP5i8Cf+NdCX7VlgpOsnkWFR9F9Y0U/jW2b2fcRfzlnJaUA+LmQ/yNZ13PyJLvnB9mv5jaNfMy7KPrTtyn++/lo/G+LdZzrtFvE/x9R+N8weATL9bOs30irjp0PDxY9sW5MgU88mRcecHd0bxm3yx7wgkNdcPWQTuQLu8bAy30dJHaiDwyoKO//44WcJn/Jh5zPy36VGsewx1VHsOODvrIew7+LnLfuPxPcUH2q2LPRfgv+st1g4vrwhqzvrCrj6mPy44/Kh4h/VLPe6CzyTDfQp/7N4C8Wj5d9Wm+uip0YI58ih1o/wGGNryGv/Wfxs3NWoeezWpBXzz4FzzXzDH4y2IE4ezFrY+xzqOiztc6LfCzFQezWbjlG9qXsfUw8vl6cPN71K/HGswA8YfsYN/RnBThjTS2JZ5o/9qUaWcV/GJVKVCF+jWMd/skSf8yAv8mL63QjLypfHX90Ll3GNWYmkeec3yt+R/3iK98ZreH7lM6Z5Fz0TI2Is78ciXODDxHv67xDj9I2E3djvuA39wwU+9Z8L6EfS/NKXmN4XxT5WTts+bvddik83dqW5K8Ny4ALjq4RvlL74Aff3j9e9m/Yr/CfbhPBm2Ud8aMXX0l8UaMPNZHxU73J4xtm8GC5PiOvwunwpzGdydeWauQRvosl3zZeNRR8prrtIm9Y3Ys8vHlh7GulC3xs2RL4v/8WiX8w6zcg3/0HntnKp+KfYh2wo69lOsn4bd7C89XkqrQtSt4Vn9cV/3ld/Mv/gan4Q6VaIvz++N7Eh8rXJG4bhfyQ271f6F/sI/LOV6fgldNSyPv+uQHPGtia9Th/RW/1Ijwf2Rm5195I3l/XjXx4aAhxpFMcPMvUIeTfLpmJB/lO4s8aroIn3VEHu7HzIL/Jtxn/tgv+vfZ+xl0EHrXiyoi/0wvtFX2wj5LXqykD0LMLzuQ/J/LhR3ZUxE+6ZOhjoyh4sFdO5Cf7hoOnC1cWPGD0XQwej+lfV85lrCP51t5VnMe4avir4jfhmU45yXea+0xwhvNL8pNdxWS/ZvBT+IaBtcCfJ4eKf9EG1hD52/ULU9dxCRe91dcm4DfWDQIPtnvP/FkT5X39ShmJQ2qVJdhPuWz4v9SPGXxxKfz4Ps+K4IHXoqemaxz1l0x9ZB7LzkI+tGainLva0UP00jwXhR/oVwt5Hx4Lfpkwg3hWtL6s11q0nnlzLCf+Tcmwl6X+os9ai2mBMm7DeXxXx1nwh3Y9GrxkN4LH7hoo+MQcoxJn736mHlPqqeQR9tjb2N2xe6JnVmjbhvJ89StwZNoq4tr3rJyzPkj0Rc9WAJyT5yx4Nghca68ux36yn5d7I/wy5xm4WfynXbEVOCrbJfDOm2HwDOMawms6BeG/HBuL/Ey3VuWIT4+Zp6ktdq+cHUo9J98u2Yda7i7jtUkQO1QLrAA3vTbwZw13k29vGQUuqtmR/DZ4LziobAH0O7lAfxk//yjyvxKfsJ8Xe+B76yyjrvOpIHzNg0nwSLnqin8z/8gtcjKCJwgOsIeuEHman35ib4njOFdtuJyHMW0c+VPiUXiowHT4rIqesl7lQ03yxx4GeWoHR+Rrhkvep464K+dnT9ThM74+lHHV1nNlfmtNOfK1qj/w9xUmiv6bC9Lhf3plHinXKYvlXC2Hz3KuakQd4smahfizcYUEJ9t9YvB75yyJ++rqZPxJs7bw+wsznt+/j98bkST5thk1Hb0PJ3/WV+1Dv7Y/FP015oST94cHw++/Hkde/WI/eWI2nfy2WFJG3axJTeJSN+S/qV4LGf9+KHGjuzN+Yeti6ljt76AHj2sj93EDyat+KvidFsXQt7uf0YMhl1jv8S+iX3rJGPDPt47EtbM3qZOseSzzW1fPYR/JH9tjV5uwy6uN0cuzqdhL66qSfxip9bDDiMbknZe94QWCh4I/MmUCl9zogzwf3uC8z1UGr03tyLiRr6kL1G5LvStgqeBfM2s0uMw/UfhQc1Id/FuBIxI/lebd5O9q/cXCb2vjc7WR99I8RT521p+id6pbF/K6yHbkLd0C8GPlf1FX61IZnnHYGXiKvm3Bs5N3Zvi1KPjCX/nIp+NmgzMuKNhhswxcUrc5/M6Si8jHIwq+3HfnF+T8Q+Kl8jUv/vVBZvJe/QX4WwE3KPtriV4rg/GfiuNC0Sd1Yxv203Wd4BYr/pXEdW1aSeF3zVuzkJ/HeHjjhXngzSv26iXryZUu+qaoa8mP1z1vJe+NHyv40O78DHnvnQt+8PGGF4ifjj7NfQy/1GuQn8y3Ygm83rpZ4MtdU/C7RT9n1GH2Mm5MeVmPUiaJvOFKU/BA+H3ud8PzqYE10O+uRzmHRx/RF69m1BXKdSHO5+iJPg8vxDXGhfVteMo4cxPR8yJnxJ6V9aPkO62Z/xiR162C4Obp5clHflnkVbmHcx6HO4AfFroJrtKbdmCdW7+S320dCG4J2Qs/e/U5OCcFfGD1U+B7GpcWXGolLMb/VT8FD1Hcoo6T1BW/39Wd+vmqicTN/HXkfXsN+MGekJ8+g8HryT/apoq/NG9XEvkodVeCVwbMxm/7HIQvVzJ4ln/8qLPnHca6nGqCJ94VpA8k+zPq+8ljiW/F/OinONQW+4hqDx6t2SCDt44Tu9fcFwj+MV7NkTzXuFJU5GyfgR8xQ0aKHI0+L7ADj1Lgzp3X4AdiVoOz/11DHEpOgt94oqAH+xM4x4e3yatC79Ofsmwv/iv+MXx7peH4vbXzqScmLpF5teR94mesgMHkJUdcwAtpB4n/k9vAiy+4DC/wxIl4cbMOOLgN/I6+LwqcNmAI+XjbheDSd33hx3uvx+6qbZA6hvp6DftKOID8SsXgF5dMYz7PuoKDrJ6FqFvePU4+4T0DXOmSv6esXzmIHWVPJ98qvU7krPm3gUc5WBg7Lruac5zcgfN7u1dh/8fpR8kSWoRzf0Z9pVB+eEbPZhJvtKHl6NfJ1o88rkN/eLIl1emTWNdD4oixfy48+wDyCuu5L3G+4R+yL6PyXvigETWwn6GW+AkjNGM8nx3UFXsclfF0577kD1MeS75ovfAVOzJiR+PvF9WT/SpdT4k+m0F7qUfFF8JP7lgMHnf4C151iA/5bvQv8tjP7sj973bgnWPV0Ztu9cjvs99E3o0SyQ9c2iPXLsRzxapMPnXUH9wWo5OP1T1D/1VM1kfyfvSf4heU4vlkH6qPhl/q+xNep1UwfEv2SOpila/DR205106eu8VQp/ScL3HM/tSC+JApBj7zZgHq/d2miXztL33xI+n05Zidysq82kNXkZPd6F/xC3aR3fjDzfc4t+IlibeZ4unX+pkE/q+VDq4K8ZZ1W3Y58JhVRfhdrU1L8TuGYxfRB3OlQZ/IotfIb2xNsQfd8ShyjvsI7nBfhf5OKw2/GOFKvWFiMPi+ai85X3P9d87LYSBxeO5o3uu4GH+zvhhxJnNl4tEl+nOseQMZP5W6gOJXHr/4I4b+tZd3wTG//sTPngjDDw/rkJFHhogfNGvkJX9vuIg4ft1R8L1Ztyh45+QdwRVauXL4sxaTua+XC/xzszP7uNgS+YQEIO+UZejxs/f4xVlb0ONB5kD57v498pJVWVmXF/U3K/tKeMeD9akbFdpKX0iOUHiV8XmpPziPF/s17r2jz2SHip+OcaYOkmOW2L3aHv5O/3IDPr2jL/xEzC/itqOJPRyqht+305F/y7/xdztrwNMFFxR8rywdLnIxd/4inhx1EB7d+HqYvoQ/qsMrapepc0x7Qr3pSTfqXvdGot9rA+HRVk/P4KMnoZdly5FvtqxOPrYuSPah+a7kHL9Xwa5ufcGPlR3LuR1yp4+hfYDoq30oABwUHAbPZbrBC/evLby89awa9pEE7lTzXBb70z/9i76HHxH7MCO2y/xWQhw47l1u9NX1FOOfiYMfP5rRTzNqOvXCvCtkPMszVfyK3hp+R9s1Gr3e1oV68ICFghPU41mw20H7ydfO7pBzNH09yGdW/Cf+3KpfnfrP4YKiX9qfjcjrPevAD7RtBn7b3Vj01S7kTd0smDqf7hMPz5K1NnnH5Qrww7epTxge/dCXTF3Qx+UbyVe0GfBl/6DHau+FUpe2Q/KR91wwwFMNpnnL38uVhafLNI7+oafRoqdG6e+S/9vHA9GLFU0yeODm5BGFX6BPKYnwJVtyggNL9IG/LDWAutKx8sSVkqrw7UbLHPKdet4Zfz7HDfyVNBue/KiGnFY3Ab89ukFfYrNz4ueU7lvh4YzR0k9o3IkSvdGPTgGfnNhO3rWiHTxt7XDq4Kkj0N/Pf6IHE/YTL8ICJW80qlVjnhtBoh/q6SXwzx4p4LzSt8gji2XC7tN344/uRhOP9zTHP0xIhjfutwJ+6IInPFD2kqzj1GLyopPe5J1tRhE/hv6knzDuGbznhXusI0sWka/t+lzsVP2vAHxExV70Y1Ulj7VnTYTfG3xK/Jz1JJx6/RE38rr2DcBXL/ZJHmM9DBsrz8PpJzQ3VAXnvKkmfk/9uAg8vyeavrRq6dR9InKLvemxE/Bjn03h8y1lJvViYzB18lLLRO/Uu8Rvq2sacWs0+qxtrQbe/ZkdOey4Tt3SrwzxZUF95HJvGH19lSPwf+/OyTjafJV8PxycajVuSt38MfVTc1oB0V+9S3Hqfs/d6YPqnNFPUZd8RctWCDu6HUC/YbntnFe3TbxX0A9c2fE9761rgZ46zaeu5NGHvGRPb8nzTLf4jL7vG+SxH17BCzi2oC8grBHycEmi324CeqHUy+i/Hf+B/b563UPmGX8WXD2zKue7z6Ku6OlbX+RZ14v1lppAPOtu8/xEMHGloQ/9vc4Z/TYe5/BH818y3vdVwjebCeSB6tah8p45dSf+sNkx0TdF30GftEdN6rjrb8PLLmzP+39tYT/Kv/QjPO4N3/HjGvE+U1lwkb6Z+l3p9/iV0fRdK0e+yLj25Yvg4SbXwZ/fqBPa42bBK5Y/Rd4f8YR6w9mSos9GZh+J87YVg1450C9sn6bvWum9Edzz8CI4XsuJPj34j35I917gyJFjeK9qXvizGQWx/z8X0Ke5/ARxboQbOLFKtOih/jlZ7FRvOoV8fmc5+ItrTvDkefaSJzUtDs5oqtJfVau03JsHN4j9q/1aw5csSgLf/vMPfJtjCuPPPAUPlGUDfcG+p4izf99EX+0kubc2zMYftklhv+oB0UO9zTzyizfFeN7jB3FmbxF49MhC9DHdzSE8o5p1JnxYl3T4gEv76Kc9v0nsS83RDbt+85K8KuYUeWX8JniZ2Cjyn4Pn0LcSc/D/yTH46SGD0QPPeejJ+Q/0x+7vAI/ws7S8Zz1OJG8+lhv/WbMG9dMtbcDpT7LRR9nWi3qKyzT4pkXTOI88N+E1D1TGb6zZDV6NSiX/2Pi2Ef62pOiRul9Dz9bi17Up9YljwfwuQM9xmLgbaYFrf+RjPKdOyLvid+qqSwPQvy0rwBXZ6ftSEmtQr3j6uovcR08FH5UoJ/ObQxbAG5yZBc9clL5fc2UV4kgBB/bxx1PigA9x2O44BPztsAkckTaJvPBGBs8+ZDz2n28Gdhv1EhzYNCf7y0tdyiixBB4sPAg8caUfdYTOZfh9xMme4LpBzzLqb6c5R3UXvGK1jeS5SRXIc32vY1fzTMFt5qfMwtuY4zuiB3pZwb3Wdfoy1QILwDmdovELk6h7aMuPkack3IcH0IfTv/PgNLzB9Kn0Xc1PIc5EJXcj3m6Af6mygrj24h1+JmAledGt8WLXuqLTtzDUj7xl/V6xB8PPGT3sc4x4H/OdPK4x/cTWx2rkjzOzULfyGiJ+UPs/QpPzmzMD3j26ldit6V2CfS8tQB/R5APkW//6SfzUe59Gz1LAd+qyy5xTRAPwhx6Jvz++tjj2f5E4/ymC+JcWiL+u9I08yiyDv951iv3PpY5rPetFnuIxCJx/ZwY8U+4O8GZVXcBNpf+G9yn4DLx/xht/k2drVfxVK+J49sfwMpF1OcfnRTn3+tvoA4y4LnHLPjmOvhmnE9TfxhakT8huy3rvtQQf56Y/9f8Ambx4/ml+t+CQhD500KkH3lhHXImbDM+wxgv53/uK/zqd0fcyER7RuBbE81U+1L1qZyaOzsuK327jDn+7dQjx4V9P5L9Ew05jnbELHw/w8G4v/PA6P3jD7cvhg2925vwiX1EHeLNLrtb5fPRFXH1Pf+Kj1vBQ88Hrxoc9gm/18rnxW149BF/o0UXFfq29t6jPzU8C93xcCX+e6SLnu5f6vfrdh31dWoO9RxRGrifG48e3fCG+GW+IT80OUnec/JU+i1Eb4T1G9sKvT7qK33vrAS7p+gu8O7wWevN3aB7s/hh51oUqYtf6pyIZchoE3nzwkzzzymRZhxGdCI+VYuB/b98kXvyaAI70jMKPtigEf3XYEf1fthr9edAC3u5MIPl49x30Re36QX9Edy/u82emXtPkEXLO+5p62ceMvr1pM8gPAlvTpxF9gHhdehC8cf8x4IwWacgndyL2/cSX+ubOdPqCrhdH3xYXok9XbSk4y+iYQpxvdhU/uOgi84dfhw9YUgO/Ve8E57DeAf11dYV/rpIZXuBAO4m3WrTNuc97z7w/T6BvxdcQZ68Xlv2qAVPA543oT9JOZ8Ou7Sj6OPf7Y+9Gc/DFt+70Ozq8R/8y/UJvsq+i/hwRCQ9XJwMPuK0g7mj/kjetuwuuiy+J3zGz8HuZvLOpV23dgB+ZfIa8dzp90VrnUHitt+/h5/rzOzj1YRXiVvpecPuvWWIv5sg4+kBPzCH/upkNPjigC/514RN+xxHWDD6s9jv53YlVYQv6qVFvMqo0wu//lwA/0vA4ePBjRXDRnkbIZ1kT/MPswujdyq7Y3/7iyPNkQ+zpiBdxb+5R6mh5S4GH/A7C15wvx/rzLqTOMfw1db5w+qXUaD/k98yf+BL6ET8/PD9xL8akfpl0DXscVQN7eVJG7Mhu0h+exj1W9ms+pQ/BzqbiD/wPwIeF9cR+3YPhRS+eIL4ddKcfaOx27i/S5694x6CXo+D/9QNtwLex+fFfrcKwv6dF4WFbl0Y+nW+RB5X5wO9A9mzj92iDHoBfnPndnTI4CD5q7G3y1aDnyN2xAvWJ2kGsf8Q31uWwGf/U0ZB+K7UT8tY9K1N3S1oq8dTsfQgeeg39CHrwUuwjZiD6OjICf1zwM3lg6yjBDXats4KDlZn1ixMP0sg3Ix+A37qfJm41nUM9ME9t2bc1NZ7zyz2fvh3PNPp01Evg+iy1sJ9Ta+Ap9kcgp3xx1MGaV8Kfzt1DHhvvQV44YwP7b3+aeBxxDD3dsYr6SmIx9OL+PvLpkfSVqjn6wMsfnCb6bv61HrlFroJHtG6RD4z4QJyed1v8o/K0AXH9ZhX8aw5n9Ey7BD6eqaG3qx7x9/61qR84ngTvlj7DvFU88Ycpa4jbY54Td5fFYM8bZsHTfX4g81q7VPzO6Cvk22+2ErdDa0r9Ui2YGfzldAT/vPsufU8HG2HnftTDrBFDia/zH4KL9l+Fn4w8RHzfHgD+KXKWeLLwIed7fRbxOsc4+Ni5/uyzTjYf+c4rm/hzPWcYPOPKnNjhhp7w/XMfMM/5D+CHoCzg74Su2P+rIuy72EjqY5uyCh41JwXS93fOWfRN+bMNeey4e+C5BY3he9zfZvS/rIfPbtde6g/WnPvwEN+GoN/dSnG+z8CD6vBIfq/4z2r0aGYA9Z0fM9oSjz5TF5/pKfFJqRwL3ungQ9zKPorfQ2TJiFNqXtZXqR/9ug83w4sFdOT8K48ED5xHb62Rb7DnPPnxq0O/EI8qjiYO1q+PvTSirmfemEn/TKOwjN+vmtj90Qrg4LKtwJk324mdWAeWkp+0rkefRKH3xI8ds9nvbC/iTkID+hlu0e9vbIUPUJfweydzdiR1yl97uPZ+iN+texzeIPwruOJYUc4raCHyTX9Af7Mdx9/XUU/V3A4zfgnqWmrtjL5S19H0p+dox75qwTdqT4mraimd5zdygte7VBI7sY6vRr77NpLfGos419F98V/uj8hr9vWlP+vlJsmb9L9qi78xRhyBD37VkjrnmIy++zWT4N2+bCHuPLtEf/hb+qiNlx70YarkY9YX6rPWlZ88X16R87g9DL16HwKu7PsB/b98C/wesIH68oxj8GgtnyLn2C3s92kSdnG1BzxUuyv0efncox//U0Ximdsd4knaQPqPbl/m7w5NyZPL8f8FWM3f83f3aPpoqxrwR+NO4z+X9sZ+y6ewrw7xyG9RA777WD+N83YAx2xslfF7m/fE+9A1jPujDn5ndG/mDx3BuUxZjr/e3Ijv9nQEb3zbR5xwqgPvXZw+LGtNLfRkRDL+wjsf/EdsduogG+aj/5+HI49Cz+EHbmVhnuId4B9GO1GPn1SC321loe5vueZiHdMz4kKxCOJr3dP4C3M78il/mmtWfueunPoDex+anfy/SMbvEnN9eCR/v+qPfN6Ox44areW6bRfx/OsWziuR+W2zIXZdmjilxSbjB2LPgEu8jrNuwxe7nZPRb78hFHsYjb6YndoRv7o0QY5lI9GrTf1Zd/HC7HunjV1t3QaOXdaefRx7gB19rQIeiH4ErzOf36Oa6z9hHysr4AdedUIfUw4QF7d1wZ7DTPDwhPLosRt4UKuQRP/B4oLkGc+C0au8rMN6z+9vzbux4OWYb8hn5TX2v6co/HwH6g/2oTvg3EPtWN9/c9nvP8XIpx7eIO7vvMV9Usb/E3DnOX0PU8ehp++ucJ5TbyOP1rOYx3ETdfqkUOw6dy7wiKaA84+sRA7t+9IH4rEJua4Mh2fZnAm9HzQf/c40kX1sb0ncT7gD3js9CrzbN5H+yKbw3Yoj+b0ZnIXfc0RSV1En9cEvFGyNfofz/5mY2kb0ZmR75O40mvUcyfg9nHoc/zLVC72PjmG8y93QM3UC9nh2BXaQ8wLP1Tno6+0A5HC3H/ze43je836I35nYB/x/8R52X/Io+z+Pn7Vev4Une9EffBROf7r2ZOxr7X+gkMFR 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eJwtm3dcT/sfx49VZJNxKY5NklVxSU72jmsTHbLJumY/cjIusrrZlzgiN2Vm72OTrk22Y4ZISDa/h/ezv87jfM85n/Eer/fr/X5/voqiGE/mPNcURdFnt/7062p55q7g9+v++JT0X/f2tVPyXDkV/P3XVT1T5b28n95V3jOuzn4p71nmM/k+tVmmPE+dJ+NpHcuk/bqaK7e+k2un9alyfXdW7rWImrl+jaNEN5TvjHyvFZn/yl8ynvEg7I2M/+e8H3KdVd1Z5k3un/vX1V6VJOuzl+4q8uteq2q8lfkXHpXxlfQO8r3eLbeMp31Y4y7vDc+Wj/Xnlqty/6fsVy8S6/rrXm21I0P2u+Z3+V5tfCen/L5aYVy15xeZ90eCjGsmhcvVLub+WJ4Hf2O8fa9lv9bBlbI+e9PFHDJ/jm1ev67m/hGyfm3px2+y3xcFssn+zdsOsr6LrWU/ZlRv2be5IfinvNfdX8Y36q17LVfnkMLy/FiirE+NuyLPlee9vsr8FXbL95qLewHZR+USrPcy8lFnJsjVitRcfj23/OJFH8r/psnVcpom69DuTv4g16fzXsi8SzfK/pTpJ+W5Ee5YVNY97gPzhj4QOZnzzotejenNZR5jZC6xC+tsjLynfi8m+zdf3fgo440OLyRy6NlV5G5v/CzvmXsmYhfN/pJ12QeXiP0Yac/LiR4nJsn6zMMrkE/pS+g/4q2Mqwa1Eb3afrZcjc/xXWW/857J+LbD7boyb8WZsi/95xZvGf9LbEEZf9vbPCLnjQXFHpX6uuhPfTqphqyz4/RG8rzXCXlfPR/tJNczHcV/9PynxC9sr0qv5P54KP7UfIrs12xXS9ZpBuX4LL+vvir7UX77S/an3orETz18ZFzLS/GU9fmtS5HvmrRh3oxV8p7i1EDszX5TPkvf30RPdvWU17z/L/Nv2Mx1/DvknxCfXcZPjBU96yWby3rUsVHosWWCrN/eHi7vG+MbiFz0TWnynaEPkvmUfdVkPlXZKHihVaog+rIr9kOPLTyeyHXLCRnfSgkSORlWS7Fj60g13v9eV/aj9vjI/lKnqaKPH69lfVroYex/0Qf5zh44SNanlTxVXN7r9VDsUHc5ht36PhW7Ujwzse9cISI/I70I362uKHJTZ7qJP6qBpWVd5lyd8dcOrCLfvzkn4xqBH+U7peC03+T9Cp/EntW8SchhTyrPl7zAr64saCjrrf43crg3o5Tsc1c3GU+9WFz83Lq3T/RvNekt8lEmdZD3dc/IOiJvl/yCg2rKrLyynu/J4IWVQ+xXzdhaDj22Qb+p/oLXyofacrWi9so6NWWL7E9LzQ+eH68n69QqRMi9vvY/wUmz5A/8YtFI2Y8ZqOIH1Ybjb/XLIq8tbcSPFK26+IURGSb6UbYcw4+jvoOPamWxF63lMfAvoJfo2/zxp9wrMz7KeOas5Iqy323ECW1mhCvveYkf63VU7KVCadGvYi5lv1618fPTQ+W5Hom/GluHCr4qs71lfvVTf/E/NXYEcWlDAnbbZNpTGfeohf+2yQdu1Wsu45hDm9eTcdo+Rr9jl+E3Td6Xlt+rv8KuDrYFJxsfbiq/v4yT/VjpI8H/ju9Fj9bZV2IH5smWJWQ97Zr+Ifu+vFPkr2XfX0beu2+Ac4/Rl3r8g/iRXWiZxBlzdk5Zh96rt8jDjkysKt97lxT/td1KyffGqHvg9G5n8V/DNUDWaVT7RJx2a9sW/JgFbi98IvFTNV0ljpibMmU+Y2NH+IBHXuxVuyJ6s8pHs88OU8Xf9Dc/xV5Uz1BwMy6eOHypaX55r+zlYjLfuXvgQbyn/G6+8JR9mBmdsM/70cS58z9FHopbstwbDyPAqaAdYl/q0u6yDiMmh8xrlR+OX1wsIFftTirjLR0gdmLGpMs6jYCj2GepqfjTjMoSF83JncTvzfii6DVsO3ad1AN7ScuGH/SbK3KwV3RiHS80sRvlS2v4TegQ9NPmrdip/eozeL//jMRP5Xhb7NOtHHib2JRxevnBq6znMp8SHIb9F/iC/aRlYvffLPEfq3pITZln5RjBaa1KYXjBggji/ex6sg4z7o3Mp0cRl6zze+BdxXPCy3q7yfrMhS746+8j2W/0wj6yvoNr8K/u2eR3a+5P+FaxNEdZl0ch5J+2RPzMmtmOeJQw6nfR96W84EyubvjrgBOPZL7AfeDwpXDhL6r/OrnX57WpL+NMrsr6WjigrxL98ZM8p0UOhm8E/PPBSuJoUG/5XX3ZSOSqtLgm+7YGnBF/04YUQQ9uu4jTVw/mhjedl9/tLdvhOZG14Z0hfVhP+FLxa+O/lRJX9Rk/ZH2aaxX8YUEi8f5BDPpQcomdmR0Gyrjacn/i54oB8JCt64hr4YGyLntOr/Iy3o9/Nbn2wh+ttZkyj12yaWW5Vi0t8U7PXh2cttKIF0nnkNOGW1k4lSJxVFu9DftuGIe/BtWAV4fvF78zHE7LvvQP+QSX9XVJEt/M0qOJozvrst5Z22rL7/v+EPlquXqIHpVBkSJnK3xAC5mvLPZpr4xDbtuKEg9OlGId9zNk/bZjfvz52Xz0k+Ilfm6WaICd3dKZR0mE3+QdBe+IXMU4c0x4+ta+4rdq1KWyMt+Mh+K/+qpgwXVtbWvs3nmhxFs7sYLgj5GRQ/BSb5Au+9Jz/N1M1lEbnqw2yMLfgNHiZ3pqOnF87ASxb+NIOvK78Ka6zB+XCK42OSzja632yr611NKs/2pVcOfUWskLDMfCYrfGeVcnxpkMzkeFYp9xx4j3vgNkf0p8xaGyvqq9hA8qUe2wN+eT2M/h2uBG8E/4fWipluB1DXCs3F7w6bc+xO+5mdhNwodast5zW5jnSg3yu8Qp8M/uiyReGUoOiXd6qQnw7CKD2ZfPW+TT/R/iuF978psfy0Te+vb1Yodm4yUiVyXoK3Js21P8yHbvC57VGkDcHqMz/4KbIn/10zh41rrp5KupD9l3eKLcawmfsLeoMbx/ZTn2X9vBT/ZzexXx+uRksVOt9liZX+2yHHwb0lp4ljlxrOQBqvMF7PDcRPTQI5O8ePYpePPOgbqMs+hoJ9n/0zliN+aITrJudfEe7OjoDOQ35iS86sl28W97+2X47dEg8LZLTdmH2aadzGO5ppGH7lhE3LowQezAvHkBe7+TBv856ib2p588z/e+wSJfbdlS7Gm6Lc+1EB/Zj9q3iYxn5L8l36s9+pNP5Pko8VubVFjivTIzEL6Sfxj5/rRagu+qaxg84MoXxlk7WHinnlRNxlE8Pz6W3ycPELlrfmsryfMqv+MHp4IFF42lfcHXu8sZp06yjKs3DhNebFVOkPVZU/Yw3z8NfeW6KgresM4N3nJtC/Ez3zXy79h/xU61V/1FfppbivAlq6eF3JwckeeEAHDkpE6cTGyGPAIdZB925U3YW5spxJGEGuSXNRJlf9aJZtj5hhhZlzazPLg7oLvgjfHHcJGn8TVI/NGcVIj83ace320t5SHPD4cKn7L8Nsm+1N2hImeleD/s/1Z1wQk184v4t+nYU+zF6NADv5m0U/IjI2WFyFcp3xo8jjgq9/qydsIz7MdTyQP//Sg8RnOYJPu0Xiagt12uYl/2gVjBBzUqCvyLLE095q0xgXj2u6xfGVUUOw92YD+7g0QPWtHc/P5grfiH8jOW/MbOKfiq3cpoLL8/y8X4Xe8Qvzp/kHXpHUuJ/qzUafCqw8fwg0VvxC/sLzdEvsq3QrJefXgd9NhxBPwmRwfytNX7ZV617Hb46MRDIidt7Uv4ZtR+cOYGPEgtGEq9IGQy8Xiwk/i53Xe9fKf3U+DjXVf5yDi+uchbxrjDAyYlST3AKhKLv4xfQb6001/kqef3RW6RRyTuaf9rJHat9Ismz8lZB55S4CHjejYGDyepkv/YlZKJJ+2jBG8s6y48dvtP1rf+goxrXPoMn9F9wNsVpvB4c1EIdaHh2bHj1knYT1A3kZOSWZA4V2uUrFNrVhj7ianqyf4dZFz9VQtZl7n4ODhcNJa63ryz8MCya4lvrWsQV65PF33pyzqInu31c4nbeamTqGtHF8YPnmLXbm3xtzGX0cdDT/iv+og6RNdt8ClHZ3jRs02iR6tCA/LfLm9k31ZpeIYa3A35zg0mj/3YSuzULraAOsO1ZeCBWgwcrDCGPP6Tq/As020UPOH6XeqOw/8BH+5RfzD/TULer7eK39oRX6mj6tdFj7b7AuRwvCpyDXlOflm+QWuR69711MMeh4mctVk69bceAeSfw/aI/+rqu0LY71hwMrAw+chxb+GTVutQ6hmh7aXeoF48InhhHKlG/ufrJzhj+weQZ3mUAF8KtxP+Yz46AS96N1Tiu72gEPEk+RA4fWIJ9c/uL/A7xx7kgV9n9JT39z6Af9+p0VyeTy+LHm9T51QDWood2L3T5XclnypxUH+QAZ+/PJH4XHo0dcJuG8CxP8ZhB5U3wc8LnSYPinlOnNusI8931F+1nNSd7ee1BAeU1oOEnyin7pGP5dgr32uv55HfdH5Ffla/DHmm10/4jTUK/jnyPfXZj53Fn83IxVyHdAuUcdcOhn9Me8K1eRl4YdNcku8Yn3uDO8YQ0ZN9Z7jIz9IKgbuuIdShx1YC59fVEp6gP3dGT0djZB/a6jT8dVDeLLsOxO8irhHXBu0F5/82wJ1N3uBftxrYT8tq1B0/TnOT9exKQo/XP5SU734+hD+1Iy/SMjbDG56WKcu652BnO+EXVmdv7D01UfSuJXiCgyN+FzmrFQKog3fuTr61/g1xoe9ReHjcLqkbafFLBU+tMeTDum926hdnqleTcZYUol42L1jm13YvA79qv6Cec3ILvHbVVeoa3lfEn7W0ZvClk3XgXctGs76YzeI39rUk8GeoIvvQSyqyD/tsOvI1H1Ev252NfHWMG/zn2GiJ92p6HdGvXq47cdevB/7icph6ziwn8pnbLuQjO8inrMo74J3x1cm7veeSx/lkynjmkf4q8Tq/4LblW4984hE4ZZ0/BM+u/4p6Z6UF2P18Exx9Mg27qdUKO22Bvyi1tsHv9jsJflphKcSZHc4S1+x1AbJedRV1Hb1TAnZaohty+XKA/C29r8Rv/VVlcCu+H3Gg/VvheWYlL+Gd2omD7HPsA3iNeYW68IP5ATJf7GKeh20V/dhFR8p3SvNw8VfztVsDmcfrJfU6qxp2vRt+bA+pS11wJXFf7x1FnH39EHw/Vpn6w2t/8oBG1GXV3M3Eb9QP/Ymv2VsTN9eo+LnLHHDy7jv2vfeWyM8KXybfaZFOyNE3AJ620Y065qfB1J2DDhMX+hwk7x2UV55bkXHCf4wCQ7GvgnfHyO8nuxL3wuaSJ8TkE3lamc2FJ5tvX6KH+Mqd8Mez8PpBXuDTjrFcVzuJHNVse9jH/JuCY9rpisTLHOPoT5Schb8ubCj+ohS8CH8LLSn6U17TV9B2zqZuN/ib4K6REU1/Jy2ZvsXdZfj5yRHit1bDxsjx9SNwLWmP6F2vEkV/TYmAX4Rmg5dfYV7lUa1Wcp1VDpzf7wPvG3Sf9bh/Iq51diGeamfhiwf9s/oE8HLj3QHBGzXzN+paUe3xi8HUq62BBnW125eJ994+1O+HTsYOSsBjzN0m8pj4gbjtsUPyem12Avmu+UhwRN1mgLtNx3SQ95O3iTzMq12pA3mVkP0rU2Pwl8gb4FBNL4nz5qRe4NRG+ke6xzupv6rzp+Hfif+j7xXznTqb2RV+OCNYvjPjcgs+WuU8sMdNh+iLXV5Fn6ZnSfp3U24RP9SL+OmgoYIPauduYh/WnGLUSc8byD/lDXiRrQX48qYednRgF3W1ztTT9W4D4YH7VlJPatEYfC92VvJeI6IseUlIUeLE94PIsfNn4pB7En2cQRNZp/0ZPDxdVOoQ+n+lwVOfUOTcqh16ii4lz+2TXcHj0nklXigBV6irZdwRO7cXZeIn3s70lUJqC/9V5mTlV3Wj0XP5VOr+OdCnOscPO190nPrE0pbEkT8b4VcNfWTd6hdneEvbuvCrghvAh9+K8nvl1uBSv1z0SfOUpO4xGNwwkqmPKAdq06fzykkd4HEseXeBOPKWvBXgE7tzwItCa8Ejj3ijj+LR1HvL1qNPPX8heBnzP/rITmES7437naiLZPwDn641gv7ynGWCo8aYDshpSlPW8aYG/tYqhjqaw3X8yS0eO29fLB94NY58O7IudelweKu9uTx2PToP9dsNs5HLtMrM82oTdfbMP+HnizqJnRnp56gHOHfh+6lJ2FUX6tLGMEvkYJRqQxy4f5N8ru5bec/MU5J85lh58vn7n8kPfDzBiW3bse9jF6mfVaxIvvtkMvX4Nwr27B5Cv2TvcOGp1qtv9NPfDaJPnbmIOH2rK7ypSDLriSmBPBd4teY9V3j629HCs6zVM+Cdf9Zn3PJfKoOvH5HriJzkGfnc4cn1TPrjCwbADwr35VyBfy/y3PGOwqOsVSfJ58eNh3+4XMJO+4/A350Oyzxqziesf2of7GDi15/odVdWffs8ek/eSt+z4N/wjiDwXl83mfiR10ns2IwYIHKx2naX743JHZBjFfr2VrM11D0CapM/fNqKf6ZHwI9Wdsf/J09Ef3fOg//x+clPjtYE/8osRH+XLlL3WzEK/VxqzPfLF1OXG3eW/PPzAezGvE5d4XxO3s+IoL6++qjISfnxHb7d8AV58sCZ1KnGzqRPubqO7Mv6cIO8csNx7DypjPARreA/8I0uFf3l++c1RW/WilZiH+qWq8Rvr7/gHy3wA0u/Jvht/AgGH5Xj8JSDYVKHtDeuBCfn7CHuxF0FB28+hkc+fiO8Wb1cjnp9QGvqGWZnWY+p/Qc/ahQC3wvsRj3t9CTsfeIZ6hwO/bCD/vSvjWc38NMPk+CdT8ZT/48sTt940w7q1clzqLvdaUu8arSHftj5nfDxwJli/0p8cbE7vW4f4uaF3OS33oFiB3rsIPEL7eh3sTd1ygj4VnFnePnr5eBrqiN15lnUd5Ri1M20bxn0W1u6gh/ff4M/DmvWHPw/D442K8P5n0HP8ds/LPjuFh+uDgH0kcbVYR+58yKn0eH0d5IKkQdUfk3dqlaQxDMlsQs45pNNeL52byfnqrJ1wa9SBqG3z2uI30dS6JN47yHeFO7D+rMV4Xn3yvRx/TpgJ5f8wau8O+h/Xn6PvY7pgDwPcL7GDH1Mn/rnY+JC8591wJk34K9/N+JP8xrs79kI7KJHPYnz1r233CdMwZ+abiJP3jyKvCu5CvIOIz+1tyB/9dkqqWOa00uD+2OKg7e7Hgu+2mueMl9PX+LSZU/imPsG8v02C8GXioWJ39Zr1lHxMjx6Wh3WsfM4fM89HVw48gC/Dief0hcVhU+Vb0I9w+UF/vqfK7hWvCDnxXZfFrsz3T3Jlx6Mg0++/EL9+IIjPON8BfqL6/3x88AJ1KVPbyZeHZpMf/iKM33LMuOy+rF7GP/uK/jUrCf43Y7v5AFNoqh7vNsFHm0PBZcDPxG3zq9Ff66zU7CzkcLrNOcC2MG229hp2iGJ69bzKPK4+vtkncbVaPo09/OR/xQ4Bq4sXEWfbfZNePvw/sil0jTq45Hu1A/O0ofQblC3s/dsJl8avp362fSsusozcNSKOAg+V3gm32uvhpFnzHCkb1rtLHG44wHyxZH0bez9a6lHFxuBvU2bmdWfPwHeaCM4vzKhleCOUqyU4K6S4M18KeH4Sc5g8gvNkTrD33vwJ5d+5E8j/yMu10lDvtoa7MsrE1xuEU7e1lmTupmx+Izo1fo0nPzg625w+OVtxvWZg7+kN+RcRHht+jgrR7CuIPSsvf2JXbT7nfrsrjKcfyr1F/H+egfkUuJf4osn69DyDBa/sDuuEPlYL53wj7hA4b1m8AHhdZZTCfjolCR4+u3q7F/PK/s0q7eDx7leJV/IMQ37dgkFx+rsoE52L0bq1vZqT/Cung/889tL3otbSZ252SnBHz3vv/SHvBzF3vQ05KIFxwhvsl8upz7q9xke7UifyLy9T+KV8ioDu8/h1Qr/5VyjenwXdam286nj/HmMeD6pN/XH9yngwaX2kl+ojpXkfWU/+Zu1F3zTm+fiXNW3ceDh6lT6ZI3C4L9HXiGXgHXg8zDiuJ69Gv3oyaXp1/SOJX6EDJZ9G+X64WfxOUVeas1L1OVjxlLPzlaEvkqlDPRvzMAfe8Rk1YUq8N5FzjkoXsvIh25VID79OVjsw/zeBPucXxI8dbsEf99pkIcMqkY+7nGT+LHxNvW4si6cV/sPvqVUagVfWr6b/kv5U+ix3u/Ex4Ap1BNjx6L3EpxrMTTqC/qm5vQ/gkvRj45OJE76aRKv9fzt4bPHbzDvuqbE12Fe+NOyheTh6z5ynu5YKHWP3UNEvkZQBDxrvB948/Wo2LfxsBJ++SGYa9WcxP0xb9DfhTycjyt6FP0ufg+uP2xBHBwejt/sPSh2Yiv3kf8QB+nr2n1TRS7m9MXE6fwJyHn+KvwvupjgmOm0DH6dWYI43IQ6i1VlKPvbw/lCPcgDPtRepx74PU3wVx3jSV7WsAPxY1UJzm1kcwUnLg4GV5IfkKfWfw9/iLsELk5pRv3x0UV41o/p6GfFW+LJhhnMW+cm+dDZjfSpG9RA/z41iBM1TiGfDV7os8UZkat6fwd5ZZ261EW3fScvuZvFn/qc5HzI22HU1doelfeVu6/B67o/4UGJjcGRKSZy2ZnOOK+X4g/3Ofer99+cdZ5iA7yyYjJxt0oSeUVIMn2CoLaCb3quzpyfPLNX5GalpOIveg/ys0bbwP2l9+lPzjDwy8JexMt5i/BjJ+qTxo4P8Oz+l8mf928mD7GOkH/PnQcOhWzjfO+NJuB9SnP6PwfoM5jDxhGfbXBYad+MffgUEvnqm/Efq0Rmll89Zr8La1E3yTNQ7M48yrlCZVoZ8ofnS+nvXXTBrj07EP9GPkavxQdlne8tQX0+zQF9Tm6LPX1bDJ8fy3kOq/A18ORUlj3+kxN7Kpso+lEKPSdvnTQY3p3cHFw/dZdrF1/WaZaFl90eQ1x3dMcP3AtwziswRvzc6NYVXh31nr754TnYza7R9A0Gc67KWp8HfuTvxrmQQxXJHyu6Sn3Uev8f57/iD3Eddhd5lC+C/bekDmD9FkB+9vwpfOJgMv2rP87hH0618I8GBfD/cxnEgchznPuctIT8cIszfHRNJept3t/pI8bsh+co8DpzdAz8afNJ+GhL6gx6nyvEqZEzwSevcuSvjbczTsENkufpwzzRc8D+PPCF3pzba/2ZuHkui6eZDpzTqL2aOknMFeTjdZJzUJPi4RseceTVS8KQb17qF2bjrqzn9GfWs2ko+F1qIv3DM1/g584pyKVne8YPeUB/vncH8PnUdOTf14+8Yb0P8t9LfVQxM/ADvwnIw9mdOuK4ueBA0nPkO28edcfcWX1Y/SnjjD6BPLXe+P+DsvRzmrhxnbxK6pr2mlzoq9IP6ijf0skvL3tjFxfuUW/dG8756FY1kfNGR/z+JedBlbltsAfvfnIuwYryk3hjXUgQHmLUnE+/NKU/9YElk+H7gSPpY7n6E//n9IZvnZgt61OWGfwvwcUX/l9kHHn+H2PF75TYmuCa8w/87chH+uF7ss59PRtNPf15buJWIW/kty6Zcw73bnqBW8Po09RP4fxAuXvEhV2vqBMV14ljFW+0EztYcFy+s/x/sK8rE+BHpTqQZ8Zzzl3VrsF/ziRwXmB5E/x6IXUAbcocnucI538R7TzB/zAb/nm3PvnXiFjqnL7wfWvmCeQV0g8++3YIuHH9hchXiThO/haL/9vRN7CDAQfAzSudORezzQt7uJ+TftHC3sSrL1VYl+tHzu2lHqK+9EIFDx5HwVOsz9ShfDZTF1r/gfziWlnkrF2lnnapDn3Y86/IKxxSqJNFeHAewGuerFO/epV+c+/i5HfPapHn5HLHHucVgA/NXk4cj3+Ov525wfq6KehjU2X+t+F/g76IR0XsvdclznOFPYWvP9mCv6x/Af7/vQH+4lEMPFjbiXpUnkfkv4vnI6d6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1125916 + 1134143 + 1141957 + 1149219 + 1174954 + 1182714 + 1191272 + 1198515 + 1206044 + 1213062 + 1236825 + 1243912 + 1252320 + 1259232 + 1266337 + 1274020 + 1281279 + 1288376 + 1312740 + 1320191 + 1328041 + 1335964 + 1342797 + 1350824 + 1374937 + 1382080 + 1404145 + 1411929 + 1419044 + + + 1441766 + + + 1445342 + 9193c5186ed5d828310b72d8c3f2233a88a2afc4 + diff --git a/tools/metamorpheus/test-data/SmallYeast.fasta b/tools/metamorpheus/test-data/SmallYeast.fasta new file mode 100644 index 000000000..9b710608c --- /dev/null +++ b/tools/metamorpheus/test-data/SmallYeast.fasta @@ -0,0 +1,1187 @@ +>sp|P38013|AHP1_YEAST Peroxiredoxin type-2 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=AHP1 PE=1 SV=4 +MSDLVNKKFPAGDYKFQYIAISQSDADSESCKMPQTVEWSKLISENKKVIITGAPAAFSP +TCTVSHIPGYINYLDELVKEKEVDQVIVVTVDNPFANQAWAKSLGVKDTTHIKFASDPGC +AFTKSIGFELAVGDGVYWSGRWAMVVENGIVTYAAKETNPGTDVTVSSVESVLAHL + +>sp|P46672|ARC1_YEAST tRNA-aminoacylation cofactor ARC1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=ARC1 PE=1 SV=2 +MSDLVTKFESLIISKYPVSFTKEQSAQAAQWESVLKSGQIQPHLDQLNLVLRDNTFIVST +LYPTSTDVHVFEVALPLIKDLVASSKDVKSTYTTYRHILRWIDYMQNLLEVSSTDKLEIN +HDLDLPHEVIEKKKKAPAGGAADAAAKADEDVSKKAKKQDHPRGKPDEETLKKLREEAKA +KKAAKKAANAKQQQEQQNKAPEKPKPSAIDFRVGFIQKAIKHPDADSLYVSTIDVGDEEG +PRTVCSGLVKHFPLDAMQERYVVVVCNLKPVNMRGIKSTAMVLCGSNDDKVEFVEPPKDS +KAGDKVFFEGFGDEAPMKQLNPKKKIWEHLQPHFTTNDGLEVIFKDEEEKDHPVRKLTNA +KGESFKVASIANAQVR + +>sp|Q01389|BCK1_YEAST Serine/threonine-protein kinase BCK1/SLK1/SSP31 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=BCK1 PE=1 SV=1 +MPFLRKIAGTAHTHSRSDSNSSVKFGHQPTSSVASTKSSSKSPRATSRKSIYDDIRSQFP +NLTPNSTSSQFYESTPVIEQSFNWTTDDHISAGTLENPTSFTNSSYKNDNGPSSLSDSRK +SSGGNSVNSLSFDKLILSWDPTDPDEWTMHRVTSWFKFHDFPESWILFFKKHQLFGHRFI +KLLAYDNFAVYEKYLPQTKTASYTRFQQLLKKTMTKNVTNSHIRQKSASKLKSSRSSSES +IKSKLKNSKSQEDISNSRSTSESALSPTKSGPSKTDEKNFLHSTSTHQKTKSASSLYRRS +FISLRGSSSSNASSAKSPSNIKLSIPARPHSIIESNSTLTKSASPPASPSYPSIFRRHHK +SSSSESSLLNSLFGSGIGEEAPTKPNPQGHSLSSENLAKGKSKHYETNVSSPLKQSSLPT +SDDKGNLWNKFKRKSQIGVPSPNTVAYVTSQETPSLKSNSSTATLTVQTADVNIPSPSSS +PPPIPKTANRSLEVISTEDTPKISSTTASFKETYPDCINPDKTVPVPVNNQKYSVKNFLL +DQKFYPLKKTGLNDSENKYILVTKDNVSFVPLNLKSVAKLSSFKESALTKLGINHKNVTF +HMTDFDCDIGAAIPDDTLEFLKKSLFLNTSGKIYIKDQMKLQQKPKPAPLTSENNVPLKS +VKSKSSMRSGTSSLIASTDDVSIVTSSSDITSFDEHASGSGRRYPQTPSYYYDRVSNTNP +TEELNYWNIKEVLSHEENAPKMVFKTSPKLELNLPDKGSKLNIPTPITENESKSSFQVLR +KDEGTEIDFNHRRESPYTKPELAPKREAPKPPANTSPQRTLSTSKQNKPIRLVRASTKIS +RSKRSKPLPPQLLSSPIEASSSSPDSLTSSYTPASTHVLIPQPYKGANDVMRRLKTDQDS +TSTSPSLKMKQKVNRSNSTVSTSNSIFYSPSPLLKRGNSKRVVSSTSAADIFEENDITFA +DAPPMFDSDDSDDDSSSSDDIIWSKKKTAPETNNENKKDEKSDNSSTHSDEIFYDSQTQD +KMERKMTFRPSPEVVYQNLEKFFPRANLDKPITEGIASPTSPKSLDSLLSPKNVASSRTE +PSTPSRPVPPDSSYEFIQDGLNGKNKPLNQAKTPKRTKTIRTIAHEASLARKNSVKLKRQ +NTKMWGTRMVEVTENHMVSINKAKNSKGEYKEFAWMKGEMIGKGSFGAVYLCLNVTTGEM +MAVKQVEVPKYSSQNEAILSTVEALRSEVSTLKDLDHLNIVQYLGFENKNNIYSLFLEYV +AGGSVGSLIRMYGRFDEPLIKHLTTQVLKGLAYLHSKGILHRDMKADNLLLDQDGICKIS +DFGISRKSKDIYSNSDMTMRGTVFWMAPEMVDTKQGYSAKVDIWSLGCIVLEMFAGKRPW +SNLEVVAAMFKIGKSKSAPPIPEDTLPLISQIGRNFLDACFEINPEKRPTANELLSHPFS +EVNETFNFKSTRLAKFIKSNDKLNSSKLRITSQENKTE + +>sp|P07267|CARP_YEAST Saccharopepsin OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=PEP4 PE=1 SV=1 +MFSLKALLPLALLLVSANQVAAKVHKAKIYKHELSDEMKEVTFEQHLAHLGQKYLTQFEK +ANPEVVFSREHPFFTEGGHDVPLTNYLNAQYYTDITLGTPPQNFKVILDTGSSNLWVPSN +ECGSLACFLHSKYDHEASSSYKANGTEFAIQYGTGSLEGYISQDTLSIGDLTIPKQDFAE +ATSEPGLTFAFGKFDGILGLGYDTISVDKVVPPFYNAIQQDLLDEKRFAFYLGDTSKDTE +NGGEATFGGIDESKFKGDITWLPVRRKAYWEVKFEGIGLGDEYAELESHGAAIDTGTSLI +TLPSGLAEMINAEIGAKKGWTGQYTLDCNTRDNLPDLIFNFNGYNFTIGPYDYTLEVSGS +CISAITPMDFPEPVGPLAIVGDAFLRKYYSIYDLGNNAVGLAKAI + +>sp|P29547|EF1G1_YEAST Elongation factor 1-gamma 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=CAM1 PE=1 SV=2 +MSQGTLYANFRIRTWVPRGLVKALKLDVKVVTPDAAAEQFARDFPLKKVPAFVGPKGYKL +TEAMAINYYLVKLSQDDKMKTQLLGADDDLNAQAQIIRWQSLANSDLCIQIANTIVPLKG +GAPYNKKSVDSAMDAVDKIVDIFENRLKNYTYLATENISLADLVAASIFTRYFESLFGTE +WRAQHPAIVRWFNTVRASPFLKDEYKDFKFADKPLSPPQKKKEKKAPAAAPAASKKKEEA +KPAATETETSSKKPKHPLELLGKSTFVLDDWKRKYSNEDTRPVALPWFWEHYNPEEYSLW +KVTYKYNDELTLTFMSNNLVGGFFNRLSASTKYMFGCLVVYGENNNNGIVGAVMVRGQDY +VPAFDVAPDWESYDYAKLDPTNDDDKEFINNMWAWDKPVSVNGEPKEIVDGKVLK + +>sp|P43616|DUG1_YEAST Cys-Gly metallodipeptidase DUG1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=DUG1 PE=1 SV=1 +MSHSLTSVFQKIDSLKPQFFSRLTKAIQIPAVSSDESLRSKVFDKAKFISEQLSQSGFHD +IKMVDLGIQPPPISTPNLSLPPVILSRFGSDPSKKTVLVYGHYDVQPAQLEDGWDTEPFK +LVIDEAKGIMKGRGVTDDTGPLLSWINVVDAFKASGQEFPVNLVTCFEGMEESGSLKLDE +LIKKEANGYFKGVDAVCISDNYWLGTKKPVLTYGLRGCNYYQTIIEGPSADLHSGIFGGV +VAEPMIDLMQVLGSLVDSKGKILIDGIDEMVAPLTEKEKALYKDIEFSVEELNAATGSKT +SLYDKKEDILMHRWRYPSLSIHGVEGAFSAQGAKTVIPAKVFGKFSIRTVPDMDSEKLTS +LVQKHCDAKFKSLNSPNKCRTELIHDGAYWVSDPFNAQFTAAKKATKLVYGVDPDFTREG +GSIPITLTFQDALNTSVLLLPMGRGDDGAHSINEKLDISNFVGGMKTMAAYLQYYSESPE +N + +>sp|P02994|EF1A_YEAST Elongation factor 1-alpha OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TEF1 PE=1 SV=1 +MGKEKSHINVVVIGHVDSGKSTTTGHLIYKCGGIDKRTIEKFEKEAAELGKGSFKYAWVL +DKLKAERERGITIDIALWKFETPKYQVTVIDAPGHRDFIKNMITGTSQADCAILIIAGGV +GEFEAGISKDGQTREHALLAFTLGVRQLIVAVNKMDSVKWDESRFQEIVKETSNFIKKVG +YNPKTVPFVPISGWNGDNMIEATTNAPWYKGWEKETKAGVVKGKTLLEAIDAIEQPSRPT +DKPLRLPLQDVYKIGGIGTVPVGRVETGVIKPGMVVTFAPAGVTTEVKSVEMHHEQLEQG +VPGDNVGFNVKNVSVKEIRRGNVCGDAKNDPPKGCASFNATVIVLNHPGQISAGYSPVLD +CHTAHIACRFDELLEKNDRRSGKKLEDHPKFLKSGDAALVKFVPSKPMCVEAFSEYPPLG +RFAVRDMRQTVAVGVIKSVDKTEKAAKVTKAAQKAAKK + +>sp|P16521|EF3A_YEAST Elongation factor 3A OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=YEF3 PE=1 SV=4 +MSDSQQSIKVLEELFQKLSVATADNRHEIASEVASFLNGNIIEHDVPEHFFGELAKGIKD +KKTAANAMQAVAHIANQSNLSPSVEPYIVQLVPAICTNAGNKDKEIQSVASETLISIVNA +VNPVAIKALLPHLTNAIVETNKWQEKIAILAAISAMVDAAKDQVALRMPELIPVLSETMW +DTKKEVKAAATAAMTKATETVDNKDIERFIPSLIQCIADPTEVPETVHLLGATTFVAEVT +PATLSIMVPLLSRGLNERETGIKRKSAVIIDNMCKLVEDPQVIAPFLGKLLPGLKSNFAT +IADPEAREVTLRALKTLRRVGNVGEDDAIPEVSHAGDVSTTLQVVNELLKDETVAPRFKI +VVEYIAAIGADLIDERIIDQQAWFTHITPYMTIFLHEKKAKDILDEFRKRAVDNIPVGPN +FDDEEDEGEDLCNCEFSLAYGAKILLNKTQLRLKRARRYGICGPNGCGKSTLMRAIANGQ +VDGFPTQEECRTVYVEHDIDGTHSDTSVLDFVFESGVGTKEAIKDKLIEFGFTDEMIAMP +ISALSGGWKMKLALARAVLRNADILLLDEPTNHLDTVNVAWLVNYLNTCGITSITISHDS +VFLDNVCEYIINYEGLKLRKYKGNFTEFVKKCPAAKAYEELSNTDLEFKFPEPGYLEGVK +TKQKAIVKVTNMEFQYPGTSKPQITDINFQCSLSSRIAVIGPNGAGKSTLINVLTGELLP +TSGEVYTHENCRIAYIKQHAFAHIESHLDKTPSEYIQWRFQTGEDRETMDRANRQINEND +AEAMNKIFKIEGTPRRIAGIHSRRKFKNTYEYECSFLLGENIGMKSERWVPMMSVDNAWI +PRGELVESHSKMVAEVDMKEALASGQFRPLTRKEIEEHCSMLGLDPEIVSHSRIRGLSGG +QKVKLVLAAGTWQRPHLIVLDEPTNYLDRDSLGALSKALKEFEGGVIIITHSAEFTKNLT +EEVWAVKDGRMTPSGHNWVSGQGAGPRIEKKEDEEDKFDAMGNKIAGGKKKKKLSSAELR +KKKKERMKKKKELGDAYVSSDEEF + +>sp|P53911|EAF7_YEAST Chromatin modification-related protein EAF7 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=EAF7 PE=1 SV=1 +MVVHWTIVDEIRLLRWASEFKPAGIHKHFHMFCIVERMNSPDKYPVTLLQKETMKLGKVF +TAKDIWDKLSQSYNLEKIDEMENTYSLEATTESSRNGNGNGDDAEIHEETLLELNNRIRV +RKQDFTLPWEEYGELILENARKSPNSNEEYPRVEDMNEKDSTIPKESPSTDLKNDNNKQE +KNATIKVKELPEYHTEENDSPIDVQKEPIKEVQSDEKELQREHMSEEEQKMKSTNKTAAP +VRKSQRLKRSKEVKFEDEEKEEIEEDNTKDEEQKEKKEEIQEPKITHNEEVDKEKNENEE +GDDEREKSTSYENTNGSESEGVDEGVDEELGYESEREAEGKGKQIESEGGNLKKKTENKK +GDDQQDDTKKDSKDKNEPLAKRTRHSSSTGNTSNETSPKRKRRKAGSRKNSPPATRVSSR +LRNKK + +>sp|P00359|G3P3_YEAST Glyceraldehyde-3-phosphate dehydrogenase 3 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TDH3 PE=1 SV=3 +MVRVAINGFGRIGRLVMRIALSRPNVEVVALNDPFITNDYAAYMFKYDSTHGRYAGEVSH +DDKHIIVDGKKIATYQERDPANLPWGSSNVDIAIDSTGVFKELDTAQKHIDAGAKKVVIT +APSSTAPMFVMGVNEEKYTSDLKIVSNASCTTNCLAPLAKVINDAFGIEEGLMTTVHSLT +ATQKTVDGPSHKDWRGGRTASGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTVDVSV +VDLTVKLNKETTYDEIKKVVKAAAEGKLKGVLGYTEDAVVSSDFLGDSHSSIFDASAGIQ +LSPKFVKLVSWYDNEYGYSTRVVDLVEHVAKA + +>sp|P00358|G3P2_YEAST Glyceraldehyde-3-phosphate dehydrogenase 2 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TDH2 PE=1 SV=3 +MVRVAINGFGRIGRLVMRIALQRKNVEVVALNDPFISNDYSAYMFKYDSTHGRYAGEVSH +DDKHIIVDGHKIATFQERDPANLPWASLNIDIAIDSTGVFKELDTAQKHIDAGAKKVVIT +APSSTAPMFVMGVNEEKYTSDLKIVSNASCTTNCLAPLAKVINDAFGIEEGLMTTVHSMT +ATQKTVDGPSHKDWRGGRTASGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTVDVSV +VDLTVKLNKETTYDEIKKVVKAAAEGKLKGVLGYTEDAVVSSDFLGDSNSSIFDAAAGIQ +LSPKFVKLVSWYDNEYGYSTRVVDLVEHVAKA + +>sp|P24583|KPC1_YEAST Protein kinase C-like 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=PKC1 PE=1 SV=3 +MSFSQLEQNIKKKIAVEENIIRGASALKKKTSNVMVIQKCNTNIREARQNLEYLEDSLKK +LRLKTAQQSQGENGSEDNERCNSKEYGFLSTKSPNEHIFSRLDLVKYDCPSLAQRIQYML +QQLEFKLQVEKQYQEANTKLTKLYQIDGDQRSSSAAEGGAMESKYRIQMLNKALKKYQAI +NVDFDQFKHQPNDIMDNQQPKFRRKQLTGVLTIGITAARDVDHIQSPMFARKPESYVTIK +IDDTIKARTKPSRNDRWSEDFQIPVEKGNEIEITVYDKVNDSLIPVAIMWLLLSDIAEEI +RKKKAGQTNEQQGWVNASNINGGSSLASEEGSTLTSTYSNSAIQSTSAKNVQGENTSTSQ +ISTNSWFVLEPSGQILLTLGFHKSSQIERKQLMGGLHRHGAIINRKEEIFEQHGHHFVQK +SFYNIMCCAYCGDFLRYTGFQCQDCKFLCHKKCYTNVVTKCIAKTSTDTDPDEAKLNHRI +PHRFLPTSNRGTKWCCHCGYILPWGRHKVRKCSECGIMCHAQCAHLVPDFCGMSMEMANK +ILKTIQDTKRNQEKKKRTVPSAQLGSSIGTANGSDLSPSKLAERANAPLPPQPRKHDKTP +SPQKVGRDSPTKQHDPIIDKRISLQTHGREKLNKFIDENEAYLNFTEGAQQTAEFSSPEK +TLDPTSNRRSLGLTDLSIEHSQTWESKDDLMRDELELWKAQREEMELEIKQDSGEIQEDL +EVDHIDLETKQKLDWENKNDFREADLTIDSTHTNPFRDMNSETFQIEQDHASKEVLQETV +SLAPTSTHASRTTDQQSPQKSQTSTSAKHKKRAAKRRKVSLDNFVLLKVLGKGNFGKVIL +SKSKNTDRLCAIKVLKKDNIIQNHDIESARAEKKVFLLATKTKHPFLTNLYCSFQTENRI +YFAMEFIGGGDLMWHVQNQRLSVRRAKFYAAEVLLALKYFHDNGVIYRDLKLENILLTPE +GHIKIADYGLCKDEMWYGNRTSTFCGTPEFMAPEILKEQEYTKAVDWWAFGVLLYQMLLC +QSPFSGDDEDEVFNAILTDEPLYPIDMAGEIVQIFQGLLTKDPEKRLGAGPRDADEVMEE +PFFRNINFDDILNLRVKPPYIPEIKSPEDTSYFEQEFTSAPPTLTPLPSVLTTSQQEEFR +GFSFMPDDLDL + +>sp|Q12460|NOP56_YEAST Nucleolar protein 56 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=NOP56 PE=1 SV=1 +MAPIEYLLFEEPTGYAVFKVKLQQDDIGSRLKEVQEQINDFGAFTKLIELVSFAPFKGAA +EALENANDISEGLVSESLKAILDLNLPKASSKKKNITLAISDKNLGPSIKEEFPYVDCIS +NELAQDLIRGVRLHGEKLFKGLQSGDLERAQLGLGHAYSRAKVKFSVQKNDNHIIQAIAL +LDQLDKDINTFAMRVKEWYGWHFPELAKLVPDNYTFAKLVLFIKDKASLNDDSLHDLAAL +LNEDSGIAQRVIDNARISMGQDISETDMENVCVFAQRVASLADYRRQLYDYLCEKMHTVA +PNLSELIGEVIGARLISHAGSLTNLSKQAASTVQILGAEKALFRALKTKGNTPKYGLIYH +SGFISKASAKNKGRISRYLANKCSMASRIDNYSEEPSNVFGSVLKKQVEQRLEFYNTGKP +TLKNELAIQEAMELYNKDKPAAEVEETKEKESSKKRKLEDDDEEKKEKKEKKSKKEKKEK +KEKKDKKEKKDKKEKKDKKKKSKD + +>sp|Q99207|NOP14_YEAST Nucleolar complex protein 14 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=NOP14 PE=1 SV=1 +MAGSQLKNLKAALKARGLTGQTNVKSKNKKNSKRQAKEYDREEKKKAIAEIREEFNPFEI +KAARNKRRDGLPSKTADRIAVGKPGISKQIGEEQRKRAFEARKMMKNKRGGVIDKRFGER +DKLLTEEEKMLERFTRERQSQSKRNANLFNLEDDEDDGDMFGDGLTHLGQSLSLEDELAN +DEEDFLASKRFNEDDAELQQPQRKKTKAEVMKEVIAKSKFYKQERQKAQGIMEDQIDNLD +DNFEDVMSELMMTQPKKNPMEPKTDLDKEYDIKVKELQLDKRAAPSDRTKTEEEKNAEAE +EKKRELEQQRLDRMNGMIELEEGEERGVEDLDDGFWENEEDYEDDNDGIADSDDDIKFED +QGRDEGFSQILKKKNISISCPRTHDALLDQVKKLDLDDHPKIVKNIIKAYQPKLAEGNKE +KLGKFTAVLLRHIIFLSNQNYLKNVQSFKRTQNALISILKSLSEKYNRELSEECRDYINE +MQARYKKNHFDALSNGDLVFFSIIGILFSTSDQYHLVITPALILMSQFLEQIKFNSLKRI +AFGAVLVRIVSQYQRISKRYIPEVVYFFQKILLTFIVEKENQEKPLDFENIRLDSYELGL +PLDVDFTKKRSTIIPLHTLSTMDTEAHPVDQCVSVLLNVMESLDATISTVWKSLPAFNEI +ILPIQQLLSAYTSKYSDFEKPRNILNKVEKLTKFTEHIPLALQNHKPVSIPTHAPKYEEN +FNPDKKSYDPDRTRSEINKMKAQLKKERKFTMKEIRKDAKFEARQRIEEKNKESSDYHAK +MAHIVNTINTEEGAEKNKYERERKLRGGKK + +>sp|P54784|ORC1_YEAST Origin recognition complex subunit 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=ORC1 PE=1 SV=1 +MAKTLKDLQGWEIITTDEQGNIIDGGQKRLRRRGAKTEHYLKRSSDGIKLGRGDSVVMHN +EAAGTYSVYMIQELRLNTLNNVVELWALTYLRWFEVNPLAHYRQFNPDANILNRPLNYYN +KLFSETANKNELYLTAELAELQLFNFIRVANVMDGSKWEVLKGNVDPERDFTVRYICEPT +GEKFVDINIEDVKAYIKKVEPREAQEYLKDLTLPSKKKEIKRGPQKKDKATQTAQISDAE +TRATDITDNEDGNEDESSDYESPSDIDVSEDMDSGEISADELEEEEDEEEDEDEEEKEAR +HTNSPRKRGRKIKLGKDDIDASVQPPPKKRGRKPKDPSKPRQMLLISSCRANNTPVIRKF +TKKNVARAKKKYTPFSKRFKSIAAIPDLTSLPEFYGNSSELMASRFENKLKTTQKHQIVE +TIFSKVKKQLNSSYVKEEILKSANFQDYLPARENEFASIYLSAYSAIESDSATTIYVAGT +PGVGKTLTVREVVKELLSSSAQREIPDFLYVEINGLKMVKPTDCYETLWNKVSGERLTWA +ASMESLEFYFKRVPKNKKKTIVVLLDELDAMVTKSQDIMYNFFNWTTYENAKLIVIAVAN +TMDLPERQLGNKITSRIGFTRIMFTGYTHEELKNIIDLRLKGLNDSFFYVDTKTGNAILI +DAAGNDTTVKQTLPEDVRKVRLRMSADAIEIASRKVASVSGDARRALKVCKRAAEIAEKH +YMAKHGYGYDGKTVIEDENEEQIYDDEDKDLIESNKAKDDNDDDDDNDGVQTVHITHVMK +ALNETLNSHVITFMTRLSFTAKLFIYALLNLMKKNGSQEQELGDIVDEIKLLIEVNGSNK +FVMEIAKTLFQQGSDNISEQLRIISWDFVLNQLLDAGILFKQTMKNDRICCVKLNISVEE +AKRAMNEDETLRNL + +>sp|P06169|PDC1_YEAST Pyruvate decarboxylase isozyme 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=PDC1 PE=1 SV=7 +MSEITLGKYLFERLKQVNVNTVFGLPGDFNLSLLDKIYEVEGMRWAGNANELNAAYAADG +YARIKGMSCIITTFGVGELSALNGIAGSYAEHVGVLHVVGVPSISAQAKQLLLHHTLGNG +DFTVFHRMSANISETTAMITDIATAPAEIDRCIRTTYVTQRPVYLGLPANLVDLNVPAKL +LQTPIDMSLKPNDAESEKEVIDTILALVKDAKNPVILADACCSRHDVKAETKKLIDLTQF +PAFVTPMGKGSIDEQHPRYGGVYVGTLSKPEVKEAVESADLILSVGALLSDFNTGSFSYS +YKTKNIVEFHSDHMKIRNATFPGVQMKFVLQKLLTTIADAAKGYKPVAVPARTPANAAVP +ASTPLKQEWMWNQLGNFLQEGDVVIAETGTSAFGINQTTFPNNTYGISQVLWGSIGFTTG +ATLGAAFAAEEIDPKKRVILFIGDGSLQLTVQEISTMIRWGLKPYLFVLNNDGYTIEKLI +HGPKAQYNEIQGWDHLSLLPTFGAKDYETHRVATTGEWDKLTQDKSFNDNSKIRMIEIML +PVFDAPQNLVEQAKLTAATNAKQ + +>sp|P02293|H2B1_YEAST Histone H2B.1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=HTB1 PE=1 SV=2 +MSAKAEKKPASKAPAEKKPAAKKTSTSTDGKKRSKARKETYSSYIYKVLKQTHPDTGISQ +KSMSILNSFVNDIFERIATEASKLAAYNKKSTISAREIQTAVRLILPGELAKHAVSEGTR +AVTKYSSSTQA + +>sp|P02294|H2B2_YEAST Histone H2B.2 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=HTB2 PE=1 SV=2 +MSSAAEKKPASKAPAEKKPAAKKTSTSVDGKKRSKVRKETYSSYIYKVLKQTHPDTGISQ +KSMSILNSFVNDIFERIATEASKLAAYNKKSTISAREIQTAVRLILPGELAKHAVSEGTR +AVTKYSSSTQA + +>sp|P15108|HSC82_YEAST ATP-dependent molecular chaperone HSC82 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=HSC82 PE=1 SV=4 +MAGETFEFQAEITQLMSLIINTVYSNKEIFLRELISNASDALDKIRYQALSDPKQLETEP +DLFIRITPKPEEKVLEIRDSGIGMTKAELINNLGTIAKSGTKAFMEALSAGADVSMIGQF +GVGFYSLFLVADRVQVISKNNEDEQYIWESNAGGSFTVTLDEVNERIGRGTVLRLFLKDD +QLEYLEEKRIKEVIKRHSEFVAYPIQLLVTKEVEKEVPIPEEEKKDEEKKDEDDKKPKLE +EVDEEEEEKKPKTKKVKEEVQELEELNKTKPLWTRNPSDITQEEYNAFYKSISNDWEDPL +YVKHFSVEGQLEFRAILFIPKRAPFDLFESKKKKNNIKLYVRRVFITDEAEDLIPEWLSF +VKGVVDSEDLPLNLSREMLQQNKIMKVIRKNIVKKLIEAFNEIAEDSEQFDKFYSAFAKN +IKLGVHEDTQNRAALAKLLRYNSTKSVDELTSLTDYVTRMPEHQKNIYYITGESLKAVEK +SPFLDALKAKNFEVLFLTDPIDEYAFTQLKEFEGKTLVDITKDFELEETDEEKAEREKEI +KEYEPLTKALKDILGDQVEKVVVSYKLLDAPAAIRTGQFGWSANMERIMKAQALRDSSMS +SYMSSKKTFEISPKSPIIKELKKRVDEGGAQDKTVKDLTNLLFETALLTSGFSLEEPTSF +ASRINRLISLGLNIDEDEETETAPEASTEAPVEEVPADTEMEEVD + +>sp|P10591|HSP71_YEAST Heat shock protein SSA1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=SSA1 PE=1 SV=4 +MSKAVGIDLGTTYSCVAHFANDRVDIIANDQGNRTTPSFVAFTDTERLIGDAAKNQAAMN +PSNTVFDAKRLIGRNFNDPEVQADMKHFPFKLIDVDGKPQIQVEFKGETKNFTPEQISSM +VLGKMKETAESYLGAKVNDAVVTVPAYFNDSQRQATKDAGTIAGLNVLRIINEPTAAAIA +YGLDKKGKEEHVLIFDLGGGTFDVSLLSIEDGIFEVKATAGDTHLGGEDFDNRLVNHFIQ +EFKRKNKKDLSTNQRALRRLRTACERAKRTLSSSAQTSVEIDSLFEGIDFYTSITRARFE +ELCADLFRSTLDPVEKVLRDAKLDKSQVDEIVLVGGSTRIPKVQKLVTDYFNGKEPNRSI +NPDEAVAYGAAVQAAILTGDESSKTQDLLLLDVAPLSLGIETAGGVMTKLIPRNSTIPTK +KSEIFSTYADNQPGVLIQVFEGERAKTKDNNLLGKFELSGIPPAPRGVPQIEVTFDVDSN +GILNVSAVEKGTGKSNKITITNDKGRLSKEDIEKMVAEAEKFKEEDEKESQRIASKNQLE +SIAYSLKNTISEAGDKLEQADKDTVTKKAEETISWLDSNTTASKEEFDDKLKELQDIANP +IMSKLYQAGGAPGGAAGGAPGGFPGGAPPAPEAEGPTVEEVD + +>sp|P10592|HSP72_YEAST Heat shock protein SSA2 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=SSA2 PE=1 SV=3 +MSKAVGIDLGTTYSCVAHFSNDRVDIIANDQGNRTTPSFVGFTDTERLIGDAAKNQAAMN +PANTVFDAKRLIGRNFNDPEVQGDMKHFPFKLIDVDGKPQIQVEFKGETKNFTPEQISSM +VLGKMKETAESYLGAKVNDAVVTVPAYFNDSQRQATKDAGTIAGLNVLRIINEPTAAAIA +YGLDKKGKEEHVLIFDLGGGTFDVSLLSIEDGIFEVKATAGDTHLGGEDFDNRLVNHFIQ +EFKRKNKKDLSTNQRALRRLRTACERAKRTLSSSAQTSVEIDSLFEGIDFYTSITRARFE +ELCADLFRSTLDPVEKVLRDAKLDKSQVDEIVLVGGSTRIPKVQKLVTDYFNGKEPNRSI +NPDEAVAYGAAVQAAILTGDESSKTQDLLLLDVAPLSLGIETAGGVMTKLIPRNSTIPTK +KSEVFSTYADNQPGVLIQVFEGERAKTKDNNLLGKFELSGIPPAPRGVPQIEVTFDVDSN +GILNVSAVEKGTGKSNKITITNDKGRLSKEDIEKMVAEAEKFKEEDEKESQRIASKNQLE +SIAYSLKNTISEAGDKLEQADKDAVTKKAEETIAWLDSNTTATKEEFDDQLKELQEVANP +IMSKLYQAGGAPEGAAPGGFPGGAPPAPEAEGPTVEEVD + +>sp|P0CS90|HSP77_YEAST Heat shock protein SSC1, mitochondrial OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=SSC1 PE=1 SV=1 +MLAAKNILNRSSLSSSFRIATRLQSTKVQGSVIGIDLGTTNSAVAIMEGKVPKIIENAEG +SRTTPSVVAFTKEGERLVGIPAKRQAVVNPENTLFATKRLIGRRFEDAEVQRDIKQVPYK +IVKHSNGDAWVEARGQTYSPAQIGGFVLNKMKETAEAYLGKPVKNAVVTVPAYFNDSQRQ +ATKDAGQIVGLNVLRVVNEPTAAALAYGLEKSDSKVVAVFDLGGGTFDISILDIDNGVFE +VKSTNGDTHLGGEDFDIYLLREIVSRFKTETGIDLENDRMAIQRIREAAEKAKIELSSTV +STEINLPFITADASGPKHINMKFSRAQFETLTAPLVKRTVDPVKKALKDAGLSTSDISEV +LLVGGMSRMPKVVETVKSLFGKDPSKAVNPDEAVAIGAAVQGAVLSGEVTDVLLLDVTPL +SLGIETLGGVFTRLIPRNTTIPTKKSQIFSTAAAGQTSVEIRVFQGERELVRDNKLIGNF +TLAGIPPAPKGVPQIEVTFDIDADGIINVSARDKATNKDSSITVAGSSGLSENEIEQMVN +DAEKFKSQDEARKQAIETANKADQLANDTENSLKEFEGKVDKAEAQKVRDQITSLKELVA +RVQGGEEVNAEELKTKTEELQTSSMKLFEQLYKNDSNNNNNNNGNNAESGETKQ + +>sp|P40576|INA22_YEAST Inner membrane assembly complex subunit 22 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=INA22 PE=1 SV=1 +MFMARQVLRNGLFLRSLAPIKITARTVASANAGIKRKSRFDKTMIKPLLLVMIFGSILNA +VIAEKRNIIDMERKYKLKLDKLKELIRRVHDNNGKVDFDADDELKLVNLRLGIVGKNATG +MKEDETDIVVPKEESLEEIWQSIIDEAKKEVIEKTPDAGVKNKEGIVTDLNVLKDLEKSK +KEDEKVYLSGDVHMMMNQPGDLNEIAKEHDKIPKFL + +>sp|P02829|HSP82_YEAST ATP-dependent molecular chaperone HSP82 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=HSP82 PE=1 SV=1 +MASETFEFQAEITQLMSLIINTVYSNKEIFLRELISNASDALDKIRYKSLSDPKQLETEP +DLFIRITPKPEQKVLEIRDSGIGMTKAELINNLGTIAKSGTKAFMEALSAGADVSMIGQF +GVGFYSLFLVADRVQVISKSNDDEQYIWESNAGGSFTVTLDEVNERIGRGTILRLFLKDD +QLEYLEEKRIKEVIKRHSEFVAYPIQLVVTKEVEKEVPIPEEEKKDEEKKDEEKKDEDDK +KPKLEEVDEEEEKKPKTKKVKEEVQEIEELNKTKPLWTRNPSDITQEEYNAFYKSISNDW +EDPLYVKHFSVEGQLEFRAILFIPKRAPFDLFESKKKKNNIKLYVRRVFITDEAEDLIPE +WLSFVKGVVDSEDLPLNLSREMLQQNKIMKVIRKNIVKKLIEAFNEIAEDSEQFEKFYSA +FSKNIKLGVHEDTQNRAALAKLLRYNSTKSVDELTSLTDYVTRMPEHQKNIYYITGESLK +AVEKSPFLDALKAKNFEVLFLTDPIDEYAFTQLKEFEGKTLVDITKDFELEETDEEKAER +EKEIKEYEPLTKALKEILGDQVEKVVVSYKLLDAPAAIRTGQFGWSANMERIMKAQALRD +SSMSSYMSSKKTFEISPKSPIIKELKKRVDEGGAQDKTVKDLTKLLYETALLTSGFSLDE +PTSFASRINRLISLGLNIDEDEETETAPEASTAAPVEEVPADTEMEEVD + +>sp|P32589|HSP7F_YEAST Heat shock protein homolog SSE1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=SSE1 PE=1 SV=4 +MSTPFGLDLGNNNSVLAVARNRGIDIVVNEVSNRSTPSVVGFGPKNRYLGETGKNKQTSN +IKNTVANLKRIIGLDYHHPDFEQESKHFTSKLVELDDKKTGAEVRFAGEKHVFSATQLAA +MFIDKVKDTVKQDTKANITDVCIAVPPWYTEEQRYNIADAARIAGLNPVRIVNDVTAAGV +SYGIFKTDLPEGEEKPRIVAFVDIGHSSYTCSIMAFKKGQLKVLGTACDKHFGGRDFDLA +ITEHFADEFKTKYKIDIRENPKAYNRILTAAEKLKKVLSANTNAPFSVESVMNDVDVSSQ +LSREELEELVKPLLERVTEPVTKALAQAKLSAEEVDFVEIIGGTTRIPTLKQSISEAFGK +PLSTTLNQDEAIAKGAAFICAIHSPTLRVRPFKFEDIHPYSVSYSWDKQVEDEDHMEVFP +AGSSFPSTKLITLNRTGDFSMAASYTDITQLPPNTPEQIANWEITGVQLPEGQDSVPVKL +KLRCDPSGLHTIEEAYTIEDIEVEEPIPLPEDAPEDAEQEFKKVTKTVKKDDLTIVAHTF +GLDAKKLNELIEKENEMLAQDKLVAETEDRKNTLEEYIYTLRGKLEEEYAPFASDAEKTK +LQGMLNKAEEWLYDEGFDSIKAKYIAKYEELASLGNIIRGRYLAKEEEKKQAIRSKQEAS +QMAAMAEKLAAQRKAEAEKKEEKKDTEGDVDMD + +>sp|P46997|JJJ2_YEAST J protein JJJ2 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=JJJ2 PE=1 SV=2 +MSQVIEPQLDRTTYYSILGLTSNATSSEVHKSYLKLARLLHPDKTKSDKSEELFKAVVHA +HSILTDEDQKLRYDRDLKIKGLHTYQPKKNCHIFKTKAKESQGASPTLGQSEAYHRQNKP +YEQQPYGFGVGKKMTSSSKSKVPIFKSFNLKSYQRNHYYSSKKERKHGSPDIDSLFHETN +GASKVRMTDAGKMDTNSQFQEIWEILGKNAYTHKSYSEDPNSCLGSALSDHEEEEEAGKQ +QQQQQQQQQQQQHYGMTSKSSSPDEEKKNNKEPKRESRVSPEENGEEETGHKQFKLPKTS +TFSSGSHDSNLQSPFYNHEYRHYARSKFECKNQFRKSVSPIKEIPATTSANEGWNILRDI +IEKLNISNVDDRNKDLLFRRDEIGDKNHSDSIDIENLSIKEPKGMKRRKKDDISLEELFQ +SLPREKDYFMMDAINDSLESINLFKKPKTTQSHEQGGTFAQAESNRAKFKPLLEQCGITP +EILDLEIPEIPEFDAVADLETLKLNVQLFNNQCNKLKETIHQVSLQRLRADTQFSDMLTQ +KQSIMVWKTYLEFDKSLMDKLNILQERQMQVIKIFSERCDGKV + +>sp|Q12230|LSP1_YEAST Sphingolipid long chain base-responsive protein LSP1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=LSP1 PE=1 SV=1 +MHRTYSLRNQRAPTAAELQAPPPPPSSTKSKFFGKASIASSFRKNAAGNFGPELARKLSQ +LVKTEKGVLRAMEVVASERREAAKQLSLWGADNDDDVSDVTDKLGVLIYELGELQDQFID +KYDQYRVTLKSIRNIEASVQPSRDRKEKITDEIAHLKYKDPQSTKIPVLEQELVRAEAES +LVAEAQLSNITREKLKAAYSYMFDSLRELSEKFALIAGYGKALLELLDDSPVTPGEARPA +YDGYEASRQIIMDAESALESWTLDMAAVKPTLSFHQTVDDVYEDEDGEEEEEPEIQNGDI +PGQVVEEEEVEWTTEVPVDDEAHEADHHVSQNGHTSGSENI + +>sp|Q12117|MRH1_YEAST Protein MRH1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=MRH1 PE=1 SV=1 +MSTFETLIKRGGNEAIKINPPTGADFHITSRGSDWFWTCFCCYLLFGLILTFLMFRKPVN +DRFFYLTGIAPNFFMCIAYFTMASNLGWIPVKAKYNHVQTSTQKEHPGYRQIFYSRFVGW +FLALPWPIIQICMLAGTPFWQMAFNVCITEFFTVCWLIAACVHSTYKWGYYTIGLGAAIV +VSISVMTTSYNLVKQRDNDIRLTFLVFFSIIMFLWIIAYPTCFGITDGGNVLQPDSAGIF +YGIIDLILMCFIPTLLVPIANHFGADKLGYHFGPSDAEAVMAPKAPVASPRPAATPNLSK +DKKKKSKKSKKSKKSKKSEE + +>sp|Q06820|MDM36_YEAST Mitochondrial distribution and morphology protein 36 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=MDM36 PE=1 SV=1 +MDENGTVKPGYELKGLNSGNSRSNMDKDPIVSKFHRAGLNDSADEEDTDINGNRNTSWIT +SMISEEKRKVEGKSMLNDEEDLHLSKATLNKCDALVKILADIIKLEFVIHQSWYIRSLHK +SVLIQFEVETSGGNKNSAGDSGDDDDDNHNGNLDDSFYKDLSLKCIKKCEKSSLALESLS +RDIDQIRDFIMSNTIEDNRVDRLLQNSMTLLLECWIYSMKRLRRLRMKIAGIFVRSKLLL +IDHELVTIWHFLQEQNEHETVNNENELKLAETIKSYRAFIKIFIQQLEDSESGSPSSSLF +EECLHVFLDIESMYNSLNLNWLLNENKALQERLLSPSSTSENDHTNNLPVIDETKEIEDI +SSFVNSIVDASMLTHDLTPINSSDSDNLSNGEIDRLDGRRLSSSTSDMSLMMQRTSLQKQ +LPSLLTAFNNARRLEQELQNACKVNDNKHSTKDTDSNIRRNEHAMSSSVSSIISQNSTLA +SPSPPMSSSFISTAPSQSSSRMSTLPLSPSSSLLESQSQTLKNNMSQWLNQSRSGLNGTK +LIPTNHIGFHSNVLNTLYGIGGGPVSKSYKSNQPSSQNT + +>sp|O14467|MBF1_YEAST Multiprotein-bridging factor 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=MBF1 PE=1 SV=2 +MSDWDTNTIIGSRARAGGSGPRANVARSQGQINAARRQGLVVSVDKKYGSTNTRGDNEGQ +RLTKVDRETDIVKPKKLDPNVGRAISRARTDKKMSQKDLATKINEKPTVVNDYEAARAIP +NQQVLSKLERALGVKLRGNNIGSPLGAPKKK + +>sp|P00560|PGK_YEAST Phosphoglycerate kinase OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=PGK1 PE=1 SV=2 +MSLSSKLSVQDLDLKDKRVFIRVDFNVPLDGKKITSNQRIVAALPTIKYVLEHHPRYVVL +ASHLGRPNGERNEKYSLAPVAKELQSLLGKDVTFLNDCVGPEVEAAVKASAPGSVILLEN +LRYHIEEEGSRKVDGQKVKASKEDVQKFRHELSSLADVYINDAFGTAHRAHSSMVGFDLP +QRAAGFLLEKELKYFGKALENPTRPFLAILGGAKVADKIQLIDNLLDKVDSIIIGGGMAF +TFKKVLENTEIGDSIFDKAGAEIVPKLMEKAKAKGVEVVLPVDFIIADAFSADANTKTVT +DKEGIPAGWQGLDNGPESRKLFAATVAKAKTIVWNGPPGVFEFEKFAAGTKALLDEVVKS +SAAGNTVIIGGGDTATVAKKYGVTDKISHVSTGGGASLELLEGKELPGVAFLSEKK + +>sp|Q05568|PEX10_YEAST Peroxisome biogenesis factor 10 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=PEX10 PE=1 SV=1 +MKNDNKLQKEALMRLSQLRFPFADAPSIVQAHQKDEQIQGLLIMKVTELCKLIKSQLFVN +SYPKELSIFAKLLYLLFTTGRRGRTLGEEYVDLTYTNRKGTRLAGRLKMIVFAFAYPLCP +YFITKLYKKIMKNNKESKIEDTESVAAFCKGLLDFILDVHMTLFYFKGAFYSISKRIFGM +RYVFKHILSKNEANFREEGSQKYKVLGYILLAQNVMKWYPVLTSTLGSWIYGRKRTNDSI +TRSSVGLQERSEHESIEGIPKESQLTHINLSDKNQLPFIPEASRKCILCLMNMSDPSCAP +CGHLFCWSCLMSWCKERPECPLCRQHCQPQEILVLRQ + +>sp|P00950|PMG1_YEAST Phosphoglycerate mutase 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=GPM1 PE=1 SV=3 +MPKLVLVRHGQSEWNEKNLFTGWVDVKLSAKGQQEAARAGELLKEKKVYPDVLYTSKLSR +AIQTANIALEKADRLWIPVNRSWRLNERHYGDLQGKDKAETLKKFGEEKFNTYRRSFDVP +PPPIDASSPFSQKGDERYKYVDPNVLPETESLALVIDRLLPYWQDVIAKDLLSGKTVMIA +AHGNSLRGLVKHLEGISDADIAKLNIPTGIPLVFELDENLKPSKPSYYLDPEAAAAGAAA +VANQGKK + +>sp|O13516|RS9A_YEAST 40S ribosomal protein S9-A OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPS9A PE=1 SV=3 +MPRAPRTYSKTYSTPKRPYESSRLDAELKLAGEFGLKNKKEIYRISFQLSKIRRAARDLL +TRDEKDPKRLFEGNALIRRLVRVGVLSEDKKKLDYVLALKVEDFLERRLQTQVYKLGLAK +SVHHARVLITQRHIAVGKQIVNIPSFMVRLDSEKHIDFAPTSPFGGARPGRVARRNAARK +AEASGEAADEADEADEE + +>sp|P02407|RS17A_YEAST 40S ribosomal protein S17-A OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPS17A PE=1 SV=1 +MGRVRTKTVKRASKALIERYYPKLTLDFQTNKRLCDEIATIQSKRLRNKIAGYTTHLMKR +IQKGPVRGISFKLQEEERERKDQYVPEVSALDLSRSNGVLNVDNQTSDLVKSLGLKLPLS +VINVSAQRDRRYRKRV + +>sp|P05756|RS13_YEAST 40S ribosomal protein S13 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPS13 PE=1 SV=3 +MGRMHSAGKGISSSAIPYSRNAPAWFKLSSESVIEQIVKYARKGLTPSQIGVLLRDAHGV +TQARVITGNKIMRILKSNGLAPEIPEDLYYLIKKAVSVRKHLERNRKDKDAKFRLILIES +RIHRLARYYRTVAVLPPNWKYESATASALVN + +>sp|P46784|RS10B_YEAST 40S ribosomal protein S10-B OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPS10B PE=1 SV=1 +MLMPKQERNKIHQYLFQEGVVVAKKDFNQAKHEEIDTKNLYVIKALQSLTSKGYVKTQFS +WQYYYYTLTEEGVEYLREYLNLPEHIVPGTYIQERNPSQRPQRRY + +>sp|Q05911|PUR8_YEAST Adenylosuccinate lyase OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=ADE13 PE=1 SV=1 +MPDYDNYTTPLSSRYASKEMSATFSLRNRFSTWRKLWLNLAIAEKELGLTVVTDEAIEQM +RKHVEITDDEIAKASAQEAIVRHDVMAHVHTFGETCPAAAGIIHLGATSCFVTDNADLIF +IRDAYDIIIPKLVNVINRLAKFAMEYKDLPVLGWTHFQPAQLTTLGKRATLWIQELLWDL +RNFERARNDIGLRGVKGTTGTQASFLALFHGNHDKVEALDERVTELLGFDKVYPVTGQTY +SRKIDIDVLAPLSSFAATAHKMATDIRLLANLKEVEEPFEKSQIGSSAMAYKRNPMRCER +VCSLARHLGSLFSDAVQTASVQWFERTLDDSAIRRISLPSAFLTADILLSTLLNISSGLV +VYPKVIERRIKGELPFMATENIIMAMVEKNASRQEVHERIRVLSHQAAAVVKEEGGENDL +IERVKRDEFFKPIWEELDSLLEPSTFVGRAPQQVEKFVQKDVNNALQPFQKYLNDEQVKL +NV + +>sp|P28272|PYRD_YEAST Dihydroorotate dehydrogenase (fumarate) OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=URA1 PE=1 SV=1 +MTASLTTKFLNNTYENPFMNASGVHCMTTQELDELANSKAGAFITKSATTLEREGNPEPR +YISVPLGSINSMGLPNEGIDYYLSYVLNRQKNYPDAPAIFFSVAGMSIDENLNLLRKIQD +SEFNGITELNLSCPNVPGKPQVAYDFDLTKETLEKVFAFFKKPLGVKLPPYFDFAHFDIM +AKILNEFPLAYVNSINSIGNGLFIDVEKESVVVKPKNGFGGIGGEYVKPTALANVRAFYT +RLRPEIKVIGTGGIKSGKDAFEHLLCGASMLQIGTELQKEGVKIFERIEKELKDIMEAKG +YTSIDQFRGKLNSI + +>sp|Q00816|REG1_YEAST Resistance to glucose repression protein 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=REG1 PE=1 SV=1 +MSTNLANYFAGKKDIENEHVNRNASHESNSKSDVKISGNDNDNDEDMGPSVSMAVQAKND +DDFHKSTFNLKRTRSMGLLDEYIDPTKKLLGRSDDLYDNDNEYYDNSSNNSSSNSSDDDY +DDGYQEHSTSVSPPPADNDSYLIPQDDNDVVVEPERHVDYLSHEWKESEISNSWKYIILK +KKKRDVDLVNAARLENASWRTWAKARNNLKTVSPEVVNWSKDSDVTWLYGPIVRDSEGNA +QSEEEHDLERGYGSDDENSKRISMPTKNSKSIAAAPKPILKKRTVTEIIEDNALWKLNEA +RKHMTEMKHASVIMDPNGNKNVHDDFDALAAQVNAQYYHYPKESNSSVSLKSQHSDKKDN +STIPNPVGENSNGGGDKGEEDLHLKSALHVQNNRSTAQSNKSILENSTNDRKANLDQNLN +SPDNNRFPSSTSSSNRDNENNSMGLSSILTSNPSEKSNKPTKNRHIHFNDRVEQCMALRY +PASQSEDDESDDENKQYVDVNNNANVTTINNNRTPLLAIQHKSIPINSATEHLNKNTSDD +DTSSQSSSSSHSDDEEHGGLYINARFSRRSDSGVHSPITDNSSVASSTTSRAHVRPIIKL +LPDTTLNYGSDEESDNGEFNGYGNAVSHNVNTSRGYDYIYDYNSVYTGDTSSFLPVDSCD +IVDVPEGMDLQTAIADDNASNYEFNNAVESKEKHVPQLHKASANNTTRQHGSHMLLYDDD +NYSSSSDSEQQFIEDSQYNSSDDEEEEDDDDQEVDDNHDEGLSLRRTLSLGKSGSTNSLY +DLAQPSLSSATPQQKNPTNFTGGKTDVDKDAQLAVRPYPLKRNSSSGNFIFNSDSEEESS +SEEEQRPLPANSQLVNRSVLKGSVTPANISSQKKKALPKQPKASDSSQSFRIVNNTPSPA +EVGASDVAIEGYFSPRNESIKSVVSGGNMMDHQDHSEMDTLAKGFENCHINNASKLKDKK +VDSVQTTRKEASLTDSSNESLHKVVQNARGMASKYLHSWKKSDVKPQENGNDSS + +>sp|P0CX50|RL18B_YEAST 60S ribosomal protein L18-B OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL18B PE=1 SV=1 +MGIDHTSKQHKRSGHRTAPKSDNVYLKLLVKLYTFLARRTDAPFNKVVLKALFLSKINRP +PVSVSRIARALKQEGAANKTVVVVGTVTDDARIFEFPKTTVAALRFTAGARAKIVKAGGE +CITLDQLAVRAPKGQNTLILRGPRNSREAVRHFGMGPHKGKAPRILSTGRKFERARGRRR +SKGFKV + +>sp|P0CX82|RL19A_YEAST 60S ribosomal protein L19-A OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL19A PE=1 SV=1 +MANLRTQKRLAASVVGVGKRKVWLDPNETSEIAQANSRNAIRKLVKNGTIVKKAVTVHSK +SRTRAHAQSKREGRHSGYGKRKGTREARLPSQVVWIRRLRVLRRLLAKYRDAGKIDKHLY +HVLYKESKGNAFKHKRALVEHIIQAKADAQREKALNEEAEARRLKNRAARDRRAQRVAEK +RDALLKEDA + +>sp|P40212|RL13B_YEAST 60S ribosomal protein L13-B OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL13B PE=1 SV=1 +MAISKNLPILKNHFRKHWQERVKVHFDQAGKKVSRRNARAARAAKIAPRPLDLLRPVVRA +PTVKYNRKVRAGRGFTLAEVKAAGLTAAYARTIGIAVDHRRQNRNQEIFDANVQRLKEYQ +SKIIVFPRDGKAPEAEQVLSAAATFPIAQPATDVEARAVQDNGESAFRTLRLARSEKKFR +GIREKRAREKAEAEAEKKK + +>sp|Q12690|RL13A_YEAST 60S ribosomal protein L13-A OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL13A PE=1 SV=1 +MAISKNLPILKNHFRKHWQERVKVHFDQAGKKVSRRNARATRAAKIAPRPLDLLRPVVRA +PTVKYNRKVRAGRGFTLAEVKAAGLTAAYARTIGIAVDHRRQNRNQEIFDANVQRLKEYQ +SKIIVFPRNGKAPEAEQVLSAAATFPIAQPATDVEARAVQDNGESAFRTLRLARSEKKFR +GIREKRAREKAEAEAEKKK + +>sp|P26784|RL16A_YEAST 60S ribosomal protein L16-A OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL16A PE=1 SV=3 +MSVEPVVVIDGKGHLVGRLASVVAKQLLNGQKIVVVRAEELNISGEFFRNKLKYHDFLRK +ATAFNKTRGPFHFRAPSRIFYKALRGMVSHKTARGKAALERLKVFEGIPPPYDKKKRVVV +PQALRVLRLKPGRKYTTLGKLSTSVGWKYEDVVAKLEAKRKVSSAEYYAKKRAFTKKVAS +ANATAAESDVAKQLAALGY + +>sp|P0CX83|RL19B_YEAST 60S ribosomal protein L19-B OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL19B PE=1 SV=1 +MANLRTQKRLAASVVGVGKRKVWLDPNETSEIAQANSRNAIRKLVKNGTIVKKAVTVHSK +SRTRAHAQSKREGRHSGYGKRKGTREARLPSQVVWIRRLRVLRRLLAKYRDAGKIDKHLY +HVLYKESKGNAFKHKRALVEHIIQAKADAQREKALNEEAEARRLKNRAARDRRAQRVAEK +RDALLKEDA + +>sp|Q02753|RL21A_YEAST 60S ribosomal protein L21-A OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL21A PE=1 SV=1 +MGKSHGYRSRTRYMFQRDFRKHGAVHLSTYLKVYKVGDIVDIKANGSIQKGMPHKFYQGK +TGVVYNVTKSSVGVIINKMVGNRYLEKRLNLRVEHIKHSKCRQEFLERVKANAAKRAEAK +AQGVAVQLKRQPAQPRESRIVSTEGNVPQTLAPVPYETFI + +>sp|P26785|RL16B_YEAST 60S ribosomal protein L16-B OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL16B PE=1 SV=3 +MSQPVVVIDAKDHLLGRLASTIAKQVLNGQKIVVVRAEALNISGEFFRNKLKYHDFLRKA +TAFNKTRGPFHFRAPSRILYKAIRGMVSHKTARGKAALERLKIFEGIPPPYDKKKRVVVP +QALRVLRLKPGRKYTTLGKLSTSVGWKYEDVVAKLEDKRKVRSAEYYAKKRAFTKKVSSA +SAAASESDVAKQLASFGY + +>sp|P0CX49|RL18A_YEAST 60S ribosomal protein L18-A OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL18A PE=1 SV=1 +MGIDHTSKQHKRSGHRTAPKSDNVYLKLLVKLYTFLARRTDAPFNKVVLKALFLSKINRP +PVSVSRIARALKQEGAANKTVVVVGTVTDDARIFEFPKTTVAALRFTAGARAKIVKAGGE +CITLDQLAVRAPKGQNTLILRGPRNSREAVRHFGMGPHKGKAPRILSTGRKFERARGRRR +SKGFKV + +>sp|Q08961|RKM1_YEAST Ribosomal lysine N-methyltransferase 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RKM1 PE=1 SV=1 +MSSDALKALLQWGASFGVIVPEELKFLYTDLKGIICVCEKDIDNPSIKIPPEIVISRNLP +MKFFGLSESTKNINGWLKLFFAKIKFDRDNDTIVDNVRVNDKFKPYLDALPSRLNSPLVW +NPSELKRLSSTNIGNSIHEKFEGIFKEWFELVSSSDMFDLERVADDVQTFHNLDELTYEA +LYEKILKITELQRPTIWYSFPAFLWSHLIFISRAFPEYVLNRNCPDNSIVLLPIVDLLNH +DYRSKVKWYPENGWFCYEKIGTASQSRELSNNYGGKGNEELLSGYGFVLEDNIFDSVALK +VKLPLDVVSTILETEPSLKLPLLSDYTTYAFENKDCVQQEKKATRSATDYINGVTYFINI +QNEQCLEPLLDLFTYLSKAEEEDLHDLRARLQGIQMLRNALQSKLNSITGPPATDDSYAI +DPYRVYCADVYTKGQKQILKEALTRLKKLEKTMLSENKHQLLTMSKILKNDPAFAETELP +SLFSNEDGEEVIFESTYDLLILWILLKTKKNSYPTKYEWVGQQYTNFKQTAYISDDAKAF +HTAYFEKQDDVDLAEVDHAIQFVVDNSFTRTSSTTEETILVRK + +>sp|P26321|RL5_YEAST 60S ribosomal protein L5 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL5 PE=1 SV=4 +MAFQKDAKSSAYSSRFQTPFRRRREGKTDYYQRKRLVTQHKAKYNTPKYRLVVRFTNKDI +ICQIISSTITGDVVLAAAYSHELPRYGITHGLTNWAAAYATGLLIARRTLQKLGLDETYK +GVEEVEGEYELTEAVEDGPRPFKVFLDIGLQRTTTGARVFGALKGASDGGLYVPHSENRF +PGWDFETEEIDPELLRSYIFGGHVSQYMEELADDDEERFSELFKGYLADDIDADSLEDIY +TSAHEAIRADPAFKPTEKKFTKEQYAAESKKYRQTKLSKEERAARVAAKIAALAGQQ + +>sp|P0CX24|RL20B_YEAST 60S ribosomal protein L20-B OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL20B PE=1 SV=1 +MAHFKEYQVIGRRLPTESVPEPKLFRMRIFASNEVIAKSRYWYFLQKLHKVKKASGEIVS +INQINEAHPTKVKNFGVWVRYDSRSGTHNMYKEIRDVSRVAAVETLYQDMAARHRARFRS +IHILKVAEIEKTADVKRQYVKQFLTKDLKFPLPHRVQKSTKTFSYKRPSTFY + +>sp|P0CX46|RL2B_YEAST 60S ribosomal protein L2-B OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL2B PE=1 SV=1 +MGRVIRNQRKGAGSIFTSHTRLRQGAAKLRTLDYAERHGYIRGIVKQIVHDSGRGAPLAK +VVFRDPYKYRLREEIFIANEGVHTGQFIYAGKKASLNVGNVLPLGSVPEGTIVSNVEEKP +GDRGALARASGNYVIIIGHNPDENKTRVRLPSGAKKVISSDARGVIGVIAGGGRVDKPLL +KAGRAFHKYRLKRNSWPKTRGVAMNPVDHPHGGGNHQHIGKASTISRGAVSGQKAGLIAA +RRTGLLRGSQKTQD + +>sp|Q12672|RL21B_YEAST 60S ribosomal protein L21-B OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL21B PE=1 SV=1 +MGKSHGYRSRTRYMFQRDFRKHGAVHMSTYLKIYKVGDIVDIKANGSIQKGMPHKFYQGK +TGVVYNVTKSSVGVIINKMVGNRYLEKRLNLRVEHIKHSKCRQEFLERVKANAAKRAEAK +AQGVAVQLKRQPAQPRESRIVSTEGNVPQTLAPVPYETFI + +>sp|P41056|RL33B_YEAST 60S ribosomal protein L33-B OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL33B PE=1 SV=2 +MAESHRLYVKGKHLSYQRSKRVNNPNVSLIKIEGVATPQEAQFYLGKRIAYVYRASKEVR +GSKIRVMWGKVTRTHGNSGVVRATFRNNLPAKTFGASVRIFLYPSNI + +>sp|P0CX23|RL20A_YEAST 60S ribosomal protein L20-A OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL20A PE=1 SV=1 +MAHFKEYQVIGRRLPTESVPEPKLFRMRIFASNEVIAKSRYWYFLQKLHKVKKASGEIVS +INQINEAHPTKVKNFGVWVRYDSRSGTHNMYKEIRDVSRVAAVETLYQDMAARHRARFRS +IHILKVAEIEKTADVKRQYVKQFLTKDLKFPLPHRVQKSTKTFSYKRPSTFY + +>sp|P0CX45|RL2A_YEAST 60S ribosomal protein L2-A OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL2A PE=1 SV=1 +MGRVIRNQRKGAGSIFTSHTRLRQGAAKLRTLDYAERHGYIRGIVKQIVHDSGRGAPLAK +VVFRDPYKYRLREEIFIANEGVHTGQFIYAGKKASLNVGNVLPLGSVPEGTIVSNVEEKP +GDRGALARASGNYVIIIGHNPDENKTRVRLPSGAKKVISSDARGVIGVIAGGGRVDKPLL +KAGRAFHKYRLKRNSWPKTRGVAMNPVDHPHGGGNHQHIGKASTISRGAVSGQKAGLIAA +RRTGLLRGSQKTQD + +>sp|P05744|RL33A_YEAST 60S ribosomal protein L33-A OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL33A PE=1 SV=3 +MAESHRLYVKGKHLSYQRSKRVNNPNVSLIKIEGVATPQDAQFYLGKRIAYVYRASKEVR +GSKIRVMWGKVTRTHGNSGVVRATFRNNLPAKTFGASVRIFLYPSNI + +>sp|P05739|RL6B_YEAST 60S ribosomal protein L6-B OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPL6B PE=1 SV=4 +MTAQQAPKWYPSEDVAAPKKTRKAVRPQKLRASLVPGTVLILLAGRFRGKRVVYLKHLED +NTLLVTGPFKVNGVPLRRVNARYVIATSTKVSVEGVNVEKFNVEYFAKEKLTKKEKKEAN +LFPEQQTKEIKTERVEDQKVVDKALLAEIKKTPLLKQYLSASFSLKNGDKPHLLKF + +>sp|P48589|RS12_YEAST 40S ribosomal protein S12 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPS12 PE=1 SV=1 +MSDVEEVVEVQEETVVEQTAEVTIEDALKVVLRTALVHDGLARGLRESTKALTRGEALLV +VLVSSVTEANIIKLVEGLANDPENKVPLIKVADAKQLGEWAGLGKIDREGNARKVVGASV +VVVKNWGAETDELSMIMEHFSQQ + +>sp|P14127|RS17B_YEAST 40S ribosomal protein S17-B OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPS17B PE=1 SV=1 +MGRVRTKTVKRASKALIERYYPKLTLDFQTNKRLCDEIATIQSKRLRNKIAGYTTHLMKR +IQKGPVRGISFKLQEEERERKDQYVPEVSALDLSRSNGVLNVDNQTSDLVKSLGLKLPLS +VINVSAQRDRRYRKRN + +>sp|P05755|RS9B_YEAST 40S ribosomal protein S9-B OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPS9B PE=1 SV=4 +MPRAPRTYSKTYSTPKRPYESSRLDAELKLAGEFGLKNKREIYRISFQLSKIRRAARDLL +TRDEKDPKRLFEGNALIRRLVRVGVLSEDKKKLDYVLALKVEDFLERRLQTQVYKLGLAK +SVHHARVLITQRHIAVGKQIVNIPSFMVRLDSEKHIDFAPTSPFGGARPGRVARRNAARK +AEASGEAAEEAEDEE + +>sp|P40075|SCS2_YEAST Vesicle-associated membrane protein-associated protein SCS2 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=SCS2 PE=1 SV=3 +MSAVEISPDVLVYKSPLTEQSTEYASISNNSDQTIAFKVKTTAPKFYCVRPNAAVVAPGE +TIQVQVIFLGLTEEPAADFKCRDKFLVITLPSPYDLNGKAVADVWSDLEAEFKQQAISKK +IKVKYLISPDVHPAQNQNIQENKETVEPVVQDSEPKEVPAVVNEKEVPAEPETQPPVQVK +KEEVPPVVQKTVPHENEKQTSNSTPAPQNQIKEAATVPAENESSSMGIFILVALLILVLG +WFYR + +>sp|Q12118|SGT2_YEAST Small glutamine-rich tetratricopeptide repeat-containing protein 2 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=SGT2 PE=1 SV=1 +MSASKEEIAALIVNYFSSIVEKKEISEDGADSLNVAMDCISEAFGFEREAVSGILGKSEF +KGQHLADILNSASRVPESNKKDDAENVEINIPEDDAETKAKAEDLKMQGNKAMANKDYEL +AINKYTEAIKVLPTNAIYYANRAAAHSSLKEYDQAVKDAESAISIDPSYFRGYSRLGFAK +YAQGKPEEALEAYKKVLDIEGDNATEAMKRDYESAKKKVEQSLNLEKTVPEQSRDADVDA +SQGASAGGLPDLGSLLGGGLGGLMNNPQLMQAAQKMMSNPGAMQNIQKMMQDPSIRQMAE +GFASGGGTPNLSDLMNNPALRNMAGNLFGGAGAQSTDETPDNENKQ + +>sp|P25582|SPB1_YEAST 27S pre-rRNA (guanosine(2922)-2'-O)-methyltransferase OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=SPB1 PE=1 SV=2 +MGKTQKKNSKGRLDRYYYLAKEKGYRARSSFKIIQINEKYGHFLEKSKVVIDLCAAPGSW +CQVASKLCPVNSLIIGVDIVPMKPMPNVITFQSDITTEDCRSKLRGYMKTWKADTVLHDG +APNVGLGWVQDAFTQSQLTLQALKLAVENLVVNGTFVTKIFRSKDYNKLIWVFQQLFEKV +EATKPPASRNVSAEIFVVCKGFKAPKRLDPRLLDPKEVFEELPDGQQNMESKIYNPEKKV +RKRQGYEEGDNLLYHETSILDFVRTEDPISMLGEMNKFTIDENDHEWKILKKLKQTTDEF +RSCIEDLKVLGKKDFKMILRWRKIAREILGIEVKDDAKTEIEVVPLTEEEQIEKDLQGLQ +EKQRLNVKRERRRKNEMKQKELQRMQMNMITPTDIGIEAASLGKESLFNLKTAEKTGILN +DLAKGKKRMIFTDDELAKDNDIYIDENIMIKDKDSAADADDLESELNAMYSDYKTRRSER +DAKFRAKQARGGDNEEEWTGFNEGSLEKKEEEGKDYIEDNDDEGVEGDSDDDEAITNLIS +KLKGQEGDHKLSSKARMIFNDPIFNNVEPDLPVNTVNDGIMSSESVGDISKLNKKRKHEE +MHQKQDEADSSDESSSDDSDFEIVANDNASEEFDSDYDSEEEKNQTKKEKHSRDIDIATV +EAMTLAHQLALGQKNKHDLVDEGFNRYTFRDTENLPDWFLEDEKEHSKINKPITKEAAMA +IKEKIKAMNARPIKKVAEAKARKRMRAVARLEKIKKKAGLINDDSDKTEKDKAEEISRLM +RKVTKKPKTKPKVTLVVASGRNKGLAGRPKGVKGKYKMVDGVMKNEQRALRRIAKKHHKK +K + +>sp|P32558|SPT16_YEAST FACT complex subunit SPT16 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=SPT16 PE=1 SV=1 +MEELNIDFDVFKKRIELLYSKYNEFEGSPNSLLFVLGSSNAENPYQKTTILHNWLLSYEF +PATLIALVPGKVIIITSSAKAKHLQKAIDLFKDPESKITLELWQRNNKEPELNKKLFDDV +IALINSAGKTVGIPEKDSYQGKFMTEWNPVWEAAVKENEFNVIDISLGLSKVWEVKDVNE +QAFLSVSSKGSDKFMDLLSNEMVRAVDEELKITNAKLSDKIENKIDDVKFLKQLSPDLSA +LCPPNYKFNFDLLDWTYSPIIQSGKKFDLRVSARSTNDQLYGNGCILASCGIRYNNYCSN +ITRTFLIDPSEEMANNYDFLLTLQKEIVTNILKPGRTPKEVYESVIEYIEKTKPELVPNF +TKNIGSLIGLEFRDSNFILNVKNDYRKIQRGDCFNISFGFNNLKDSQSANNYALQLADTV +QIPLDETEPPRFLTNYTKAKSQISFYFNNEEEDNNKKKSSPATKVPSKPDRNSKILRTKL +RGEARGGAEDAQKEQIRKENQKKLHEKLEKNGLLRFSAADANGPDSEPRQYFKKYESYVR +DSQLPTNIRDLRIHVDWKSQTIILPIYGRPVPFHINSYKNGSKNEEGEYTYLRLNFNSPG +SSGGISKKVEELPYEESADNQFVRSITLRSKDGDRMSETFKQIADLKKEATKREQERKAL +ADVVQQDKLIENKTGRTKRLDQIFVRPNPDTKRVPSTVFIHENGIRFQSPLRTDSRIDIL +FSNIKNLIFQSCKGELIVVIHIHLKNPILMGKKKIQDVQFYREASDMSVDETGGGRRGQS +RFRRYGDEDELEQEQEERRKRAALDKEFKYFADAIAEASNGLLTVENTFRDLGFQGVPNR +SAVFCMPTTDCLVQLIEPPFLVINLEEVEICILERVQFGLKNFDMVFVYKDFNKPVTHIN +TVPIESLDFLKQWLTDMDIPYTVSTINLNWATIMKSLQDDPYQFFLDGGWNFLATGSDDE +ASDESEEEVSEYEASEDDVSDESAFSEDEEGSEVDDDISGDESEDYTGDESEEGEDWDEL +EKKAARADRGANFRD + +>sp|P39015|STM1_YEAST Suppressor protein STM1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=STM1 PE=1 SV=3 +MSNPFDLLGNDVEDADVVVLPPKEIVKSNTSSKKADVPPPSADPSKARKNRPRPSGNEGA +IRDKTAGRRNNRSKDVTDSATTKKSNTRRATDRHSRTGKTDTKKKVNQGWGDDKKELSAE +KEAQADAAAEIAEDAAEAEDAGKPKTAQLSLQDYLNQQANNQFNKVPEAKKVELDAERIE +TAEKEAYVPATKVKNVKSKQLKTKEYLEFDATFVESNTRKNFGDRNNNSRNNFNNRRGGR +GARKGNNTANATNSANTVQKNRNIDVSNLPSLA + +>sp|P53312|SUCB_YEAST Succinate--CoA ligase [ADP-forming] subunit beta, mitochondrial OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=LSC2 PE=1 SV=1 +MYSRKSLSLISKCGQLSRLNAQAALQARRHLSIHEYRSAQLLREYGIGTPEGFPAFTPEE +AFEAAKKLNTNKLVIKAQALTGGRGKGHFDTGYKSGVHMIESPQQAEDVAKEMLNHNLIT +KQTGIAGKPVSAVYIVKRVDTKHEAYLSILMDRQTKKPMIIASSQGGMNIEEVAERTPDA +IKKFSIETSKGLSPQMAKDVAKSLGFSPDAQDEAAKAVSNLYKIFMERDATQVEINPLSE +IEHDPTHKIMCTDAKFGFDDNASFRQEKIYSWRDLSQEDPDEVKAKKYDLNFVKLKGNIG +CLVNGAGLAMATMDVIKLNGGDPANFLDCGGGATPETIKQGFELILSNKNVDAIFVNIFG +GIVRCDYVALGLVEAARELEVRVPIVARLQGTKVEEGRDIINKSGVKIYSFDELDPAAKK +VVELTQN + +>sp|P15705|STI1_YEAST Heat shock protein STI1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=STI1 PE=1 SV=1 +MSLTADEYKQQGNAAFTAKDYDKAIELFTKAIEVSETPNHVLYSNRSACYTSLKKFSDAL +NDANECVKINPSWSKGYNRLGAAHLGLGDLDEAESNYKKALELDASNKAAKEGLDQVHRT +QQARQAQPDLGLTQLFADPNLIENLKKNPKTSEMMKDPQLVAKLIGYKQNPQAIGQDLFT +DPRLMTIMATLMGVDLNMDDINQSNSMPKEPETSKSTEQKKDAEPQSDSTTSKENSSKAP +QKEESKESEPMEVDEDDSKIEADKEKAEGNKFYKARQFDEAIEHYNKAWELHKDITYLNN +RAAAEYEKGEYETAISTLNDAVEQGREMRADYKVISKSFARIGNAYHKLGDLKKTIEYYQ +KSLTEHRTADILTKLRNAEKELKKAEAEAYVNPEKAEEARLEGKEYFTKSDWPNAVKAYT +EMIKRAPEDARGYSNRAAALAKLMSFPEAIADCNKAIEKDPNFVRAYIRKATAQIAVKEY +ASALETLDAARTKDAEVNNGSSAREIDQLYYKASQQRFQPGTSNETPEETYQRAMKDPEV +AAIMQDPVMQSILQQAQQNPAALQEHMKNPEVFKKIQTLIAAGIIRTGR + +>sp|P38825|TOM71_YEAST Protein TOM71 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TOM71 PE=1 SV=1 +MAENSLLRFITKNKVAILATVSAGTAAVGAYVYYQQIKQQQQQQLKGTKDNRRQSEAFAG +QNEDEADLKDDGSVVSGSNKRKKKKNKRKRNNKAKSGEGFDYPSLPNGEPDIAQLKGLSP +SQRQAYAVQLKNRGNHFFTAKNFNEAIKYYQYAIELDPNEPVFYSNISACYISTGDLEKV +IEFTTKALEIKPDHSKALLRRASANESLGNFTDAMFDLSVLSLNGDFDGASIEPMLERNL +NKQAMKVLNENLSKDEGRGSQVLPSNTSLASFFGIFDSHLEVSSVNTSSNYDTAYALLSD +ALQRLYSATDEGYLVANDLLTKSTDMYHSLLSANTVDDPLRENAALALCYTGIFHFLKNN +LLDAQVLLQESINLHPTPNSYIFLALTLADKENSQEFFKFFQKAVDLNPEYPPTYYHRGQ +MYFILQDYKNAKEDFQKAQSLNPENVYPYIQLACLLYKQGKFTESEAFFNETKLKFPTLP +EVPTFFAEILTDRGDFDTAIKQYDIAKRLEEVQEKIHVGIGPLIGKATILARQSSQDPTQ +LDEEKFNAAIKLLTKACELDPRSEQAKIGLAQLKLQMEKIDEAIELFEDSAILARTMDEK +LQATTFAEAAKIQKRLRADPIISAKMELTLARYRAKGML + +>sp|P38349|UBX7_YEAST UBX domain-containing protein 7 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=UBX7 PE=1 SV=1 +MLEALFRDSVEEAINDSIKEGVVLAVYNTARDDQWLKSWFKGDDVSLDTLAEHSIWLRLV +KDTEQFQLFEQVFPNVVVPSIYLIRAGKIELIIQGEDDRHWEKLLACIGIKDKKAGESSS +RETNPGLAREEKSSRDVHRKNARERIAETTLEIQRREQLKQRKLAEEERERIIRLVRADR +AERKALDETHHRTLDDDKPLDVHDYIKDAQKLHSSKCVLQIRMTDGKTLKHEFNSSETLN +DVRKWVDVNRTDGDCPYSFHRGIPRVTFKDSDELKTLETLELTPRSALLLKPLETQNSGL +SVTGMEGPSLLGRLYKGFSTWWHNDKDPEVTSQREETSKPNRHEVRSSTPLSGAASSSCF +QYNNVREPVQSSAHASPMLTPSGTRYPSETNLTTSRSVSPNVFQFVNNDHQEDPEDPTTF +NGNNVHLEKKKDEDKK + +>sp|P17255|VATA_YEAST V-type proton ATPase catalytic subunit A OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=VMA1 PE=1 SV=3 +MAGAIENARKEIKRISLEDHAESEYGAIYSVSGPVVIAENMIGCAMYELVKVGHDNLVGE +VIRIDGDKATIQVYEETAGLTVGDPVLRTGKPLSVELGPGLMETIYDGIQRPLKAIKEES +QSIYIPRGIDTPALDRTIKWQFTPGKFQVGDHISGGDIYGSVFENSLISSHKILLPPRSR +GTITWIAPAGEYTLDEKILEVEFDGKKSDFTLYHTWPVRVPRPVTEKLSADYPLLTGQRV +LDALFPCVQGGTTCIPGAFGCGKTVISQSLSKYSNSDAIIYVGCFAKGTNVLMADGSIEC +IENIEVGNKVMGKDGRPREVIKLPRGRETMYSVVQKSQHRAHKSDSSREVPELLKFTCNA +THELVVRTPRSVRRLSRTIKGVEYFEVITFEMGQKKAPDGRIVELVKEVSKSYPISEGPE +RANELVESYRKASNKAYFEWTIEARDLSLLGSHVRKATYQTYAPILYENDHFFDYMQKSK +FHLTIEGPKVLAYLLGLWIGDGLSDRATFSVDSRDTSLMERVTEYAEKLNLCAEYKDRKE +PQVAKTVNLYSKVVRGNGIRNNLNTENPLWDAIVGLGFLKDGVKNIPSFLSTDNIGTRET +FLAGLIDSDGYVTDEHGIKATIKTIHTSVRDGLVSLARSLGLVVSVNAEPAKVDMNGTKH +KISYAIYMSGGDVLLNVLSKCAGSKKFRPAPAAAFARECRGFYFELQELKEDDYYGITLS +DDSDHQFLLANQVVVHNCGERGNEMAEVLMEFPELYTEMSGTKEPIMKRTTLVANTSNMP +VAAREASIYTGITLAEYFRDQGKNVSMIADSSSRWAEALREISGRLGEMPADQGFPAYLG +AKLASFYERAGKAVALGSPDRTGSVSIVAAVSPAGGDFSDPVTTATLGITQVFWGLDKKL +AQRKHFPSINTSVSYSKYTNVLNKFYDSNYPEFPVLRDRMKEILSNAEELEQVVQLVGKS +ALSDSDKITLDVATLIKEDFLQQNGYSTYDAFCPIWKTFDMMRAFISYHDEAQKAVANGA +NWSKLADSTGDVKHAVSSSKFFEPSRGEKEVHGEFEKLLSTMQERFAESTD + +>sp|Q12141|YG11B_YEAST Transposon Ty1-GR1 Gag-Pol polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1B-GR1 PE=3 SV=1 +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQTAQSHSPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASS +NPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITAC +FTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHR +MLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQN +SYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILA +FIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLD +DCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPV +IVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFN +YDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVS +PTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGM +HKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQI +SDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPES +PTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKN +MRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQ +LLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQS +NTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKS +LYGLKQSGANWYETIKSYLIQQCGMEEVRGWSCVFKNSQVTICLFVDDMVLFSKNLNSNK +RIIDKLKMQYDTKIINLGESDEEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPL +NPKGRKLSAPGQPGLYIDQQELELEEDDYKMKVHEMQKLIGLASYVGYKFRFDLLYYINT +LAQHILFPSKQVLDMTYELIQFIWNTRDKQLIWHKSKPVKPTNKLVVISDASYGNQPYYK +SQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELDKKPITK +GLLTDSKSTISIIISNNEEKFRNRFFGTKAMRLRDEVSGNHLHVCYIETKKNIADVMTKP +LPIKTFKLLTNKWIH + +>sp|P0CX74|YJ11A_YEAST Transposon Ty1-JR1 Gag polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1A-JR1 PE=2 SV=1 +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLRPGTY + +>sp|P0CX70|YD15A_YEAST Transposon Ty1-DR6 Gag polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1A-DR6 PE=2 SV=1 +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLRPGTY + +>sp|P0CX71|YE11A_YEAST Transposon Ty1-ER1 Gag polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1A-ER1 PE=2 SV=1 +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLRPGTY + +>sp|Q12085|YG11A_YEAST Transposon Ty1-GR1 Gag polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1A-GR1 PE=2 SV=1 +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQTAQSHSPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLRPGTY + +>sp|P0CF21|YI168_YEAST Putative truncated L-serine dehydratase YIL168W OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=YIL168W PE=5 SV=1 +MEMTYYEKTPLIRQFLNNGKTNSWFYVKHEMLQPGGSFKSRGIGHLIRKSNEEALSEGSG +KLAVFSSSGGNAGLAAATACRSMALNCSVVVPKTTKPRMVKKIQSAGAKVIIHGDHWGEA +DEYLRHE + +>sp|P0CX72|YL12A_YEAST Transposon Ty1-LR2 Gag polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1A-LR2 PE=2 SV=1 +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLRPGTY + +>sp|P0C2I6|YL13B_YEAST Transposon Ty1-LR3 Gag-Pol polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1B-LR3 PE=3 SV=1 +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASS +NPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITAC +FTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHR +MLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQN +SYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILA +FIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLD +DCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSASQHAGLAGLDISTLLPFGQPV +IVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFN +YDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVS +PTDSTPPSTHTEDSKPISEINLRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGM +HKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSNNETNHTNVPISSTGGTNNKTVPQI +SDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDPPPEP +PTELSDSFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKN +MRSLEPPRSKKRIHLIAAAKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQ +LLKMNTWDTDKYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDTGMQS +NTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKS +HYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANK +KIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPL +NPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINT +LAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYK +SQIGNIFLLNGKVIGGKSTKASLTCTSTTEAEIHAVSEAIPLLNNLSHLVQELNKKPIIK +GLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKP +LPIKTFKLLTNKWIH + +>sp|P0C2I8|YL14A_YEAST Transposon Ty1-LR4 Gag polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1A-LR4 PE=2 SV=1 +MESQQLSQHPHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLRPGTY + +>sp|P36072|YKL8_YEAST Putative uncharacterized protein YKL118W OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=YKL118W PE=5 SV=1 +MSSSIPSFDFALFLNFRRNSVILSFSLISNIRVLLCDANRQLSYLTFSSFLSAFSCEICF +IFASSFLILNIHTSVMSTLSQLNTQDFCKTEYFVNNIIVRIQS + +>sp|P0C2I5|YL12B_YEAST Transposon Ty1-LR2 Gag-Pol polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1B-LR2 PE=3 SV=1 +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASS +NPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITAC +FTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHR +MLAHANAPTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQN +SYEPFQYLHTDIFGPVHNLPNSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILA +FIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLD +DCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPV +IVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFN +YDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVS +PTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGM +HKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQI +SDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPES +PTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKN +MRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQ +LLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQS +NTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKS +LYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANK +KIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPL +NPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINT +LAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYK +SQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIK +GLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKP +LPIKTFKLLTNKWIH + +>sp|P0CX73|YP11A_YEAST Transposon Ty1-PL Gag polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1A-PL PE=2 SV=1 +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLRPGTY + +>sp|Q12273|YO11B_YEAST Transposon Ty1-OL Gag-Pol polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1B-OL PE=3 SV=1 +MESQQLSNYPQISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIINRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASS +NPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITAC +FTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHR +MLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQN +SYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILA +FIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLD +DCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPV +IVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFN +YDALTFDEDLNRLTASYQSFIASNEIQQSDDLNIESDHDFQSDIELHPEQPRNVLSKAVS +PTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGM +HKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQI +SDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPES +PTEFPDPFKELPPINSHQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKN +MRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQ +LLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQS +NTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKS +LYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANK +KIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPL +NPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINT +LAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYK +SQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIK +GLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKP +LPIKTFKLLTNKWIH + +>sp|Q03612|YE11B_YEAST Transposon Ty1-ER1 Gag-Pol polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1B-ER1 PE=3 SV=1 +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASS +NPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITAC +FTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHR +MLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQN +SYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILA +FIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLD +DCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPV +IVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFN +YDALTFDEDLNRLTASYQSFIASNEIQQSDDLNIESDHDFQSDIELHPEQPRNVLSKAVS +PTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGM +HKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQI +SDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPES +PTEFPDPFKELPPINSHQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKN +MRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQ +LLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQS +NTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKS +LYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANK +KIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPL +NPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINT +LAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYK +SQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIK +GLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKP +LPIKTFKLLTNKWIH + +>sp|P0C2J1|YP14B_YEAST Transposon Ty1-PR3 Gag-Pol polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1B-PR3 PE=1 SV=1 +MESQQLSNYSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASS +NPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITAC +FTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHR +MLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQN +SYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILA +FIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLD +DCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSASQHAGLAGLDISTLLPFGQPV +IVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFN +YDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVS +PTDSTPPSTHTEDSKPISEINLRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGM +HKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSNNETNHTNVPISSTGGTNNKTVPQI +SDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDPPPEP +PTELSDSFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKN +MRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQ +LLKMKTWDTDRYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDTGMQS +NTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKS +HYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANK +KIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPL +NPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINT +LAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYK +SQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSHLVQELNKKPITK +GLLTDSKSTISIIISNNEEKFRNRFFGTKAMRLRDEVSGNHLHVCYIETKKNIADVMTKP +LPIKTFKLLTNKWIH + +>sp|Q07589|YD144_YEAST Uncharacterized protein YDL144C OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=YDL144C PE=1 SV=2 +MSRILVIGAGGVGVITALSLWLKKESDVSLVVRSDYDRVLKHGYTIESCDYGRLEGWRPH +HIYSSVEDAASAADNQGYNYIVVTTKNIIDGPVNSRVSNIIRPVLEKNKELHGPQLTTHI +LLVQNGIDIEKEIWAEFPREQYRYTVLSGIQLIGSTKIGSGHISQVGQDHLSCGAFDPQD +AAAIQAANDFVRMYSNEGQNFVEFDPRVRYSRWKKLLYNAAINTSTALVGLDVPRCLEFG +VNKKSTEIEVFHPAMREIIAIAASEGIIIEEEFITMFTEITRKKVFKPSMCVDCEKGQLM +ELEVILGNPIRIAKRNGVATPTLSILYNLLVLVQAKLKERKGLLKFDEKTATLVDE + +>sp|Q6Q5H1|YP14A_YEAST Transposon Ty1-PR3 Gag polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1A-PR3 PE=1 SV=2 +MESQQLSNYSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLRPGTY + +>sp|P0C2I3|YD15B_YEAST Transposon Ty1-DR6 Gag-Pol polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1B-DR6 PE=3 SV=1 +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASS +NPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITAC +FTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHR +MLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQN +SYEPFQYLHTDIFGPVHNLPNSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILA +FIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLD +DCRTQLQCSGLPNYLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPV +IVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFN +YDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVS +PTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGM +HKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQI +SDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPES +PTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKN +MRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQ +LLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQS +NTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKS +LYGLKQSGANWYETIKSYLIQQCGMEEVRGWSCVFKNSQVTICLFVDDMVLFSKNLNSNK +RIIEKLKMQYDTKIINLGESDEEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPL +NPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINT +LAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTKPDNKLVAISDASYGNQPYYK +SQIGNIFLLNGKVIGGKSTKASLTCTSTTEAEIHAVSEAIPLLNNLSHLVQELNKKPIIK +GLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKP +LPIKTFKLLTNKWIH + +>sp|P47098|YJ11B_YEAST Transposon Ty1-JR1 Gag-Pol polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1B-JR1 PE=3 SV=3 +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASS +NPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITAC +FTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHR +MLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQN +SYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILA +FIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLD +DCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPV +IVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFN +YDALTFDEDLNRLTASYQSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVS +PTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGM +HKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQI +SDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPES +PTEFPDPFKELPPINSHQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKN +MRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQ +LLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDTGMQS +NTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKS +HYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANK +KIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPL +NPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINT +LAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYK +SQIGNIFLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIK +GLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKP +LPIKTFKLLTNKWIH + +>sp|P0CX76|YM12A_YEAST Transposon Ty1-ML2 Gag polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1A-ML2 PE=2 SV=1 +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLRPGTY + +>sp|Q03434|YM12B_YEAST Transposon Ty1-ML2 Gag-Pol polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1B-ML2 PE=3 SV=2 +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASS +NPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITAC +FTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHR +MLAHANAQTIRYSLKNNTITYFNESDVDRSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQN +SYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILA +FIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLD +DCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPV +IVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFN +YDALTFDEDLNRLTASYQSFIASNEIQQSDDLNIESDHDFQSDIELHPEQPRNVLSKAVS +PTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGM +HKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQI +SDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPES +PTEFPDPFKELPPINSHQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKN +MRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQ +LLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQS +NTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKS +LYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANK +KIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPL +NPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINT +LAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYK +SQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIK +GLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKP +LPIKTFKLLTNKWIH + +>sp|P0C2I7|YL14B_YEAST Transposon Ty1-LR4 Gag-Pol polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1B-LR4 PE=5 SV=1 +MESQQLSQHPHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASS +NPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITAC +FTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHR +MLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQN +SYEPFQYLHTDIFGPVHNLPNSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILA +FIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLD +DCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPV +IVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFN +YDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVS +PTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGM +HKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQI +SDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPES +PTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKN +MRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQ +LLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQS +NTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKS +LYGLKQSGANWYETIKSYLIQQCGMEEVRGWSCVFKNSQVTICLFVDDMVLFSKNLNSNK +RIIEKLKMQYDTKIINLGESDEEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPL +NPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINT +LAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTKPDNKLVAISDASYGNQPYYK +SQIGNIFLLNGKVIGGKSTKASLTCTSTTEAEIHAVSEAIPLLNNLSHLVQELNKKPIIK +GLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKP +LPIKTFKLLTNKWIH + +>sp|P38079|YRO2_YEAST Protein YRO2 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=YRO2 PE=1 SV=1 +MSDYVELLKRGGNEAIKINPPTGADFHITSRGSDWLFTVFCVNLLFGVILVPLMFRKPVK +DRFVYYTAIAPNLFMSIAYFTMASNLGWIPVRAKYNHVQTSTQKEHPGYRQIFYARYVGW +FLAFPWPIIQMSLLGGTPLWQIAFNVGMTEIFTVCWLIAACVHSTYKWGYYTIGIGAAIV +VCISLMTTTFNLVKARGKDVSNVFITFMSVIMFLWLIAYPTCFGITDGGNVLQPDSATIF +YGIIDLLILSILPVLFMPLANYLGIERLGLIFDEEPAEHVGPVAEKKMPSPASFKSSDSD +SSIKEKLKLKKKHKKDKKKAKKAKKAKKAKKAQEEEEDVATDSE + +>sp|Q92392|YO11A_YEAST Transposon Ty1-OL Gag polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1A-OL PE=2 SV=1 +MESQQLSNYPQISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIINRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLRPGTY + +>sp|Q12414|YP11B_YEAST Transposon Ty1-PL Gag-Pol polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1B-PL PE=3 SV=1 +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASS +NPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITAC +FTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHR +MLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQN +SYEPFQYLHTDIFGPVHNLPNSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILA +FIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLD +DCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPV +IVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFN +YDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVS +PTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGM +HKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQI +SDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPES +PTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKN +MRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQ +LLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQS +NTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKS +LYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANK +KIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPL +NPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINT +LAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYK +SQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIK +GLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKP +LPIKTFKLLTNKWIH + +>sp|P31111|ZIP1_YEAST Synaptonemal complex protein ZIP1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=ZIP1 PE=1 SV=2 +MSNFFRDSSMGFKPRPNIFAKLRVRDVDSDSSANTVVENSSNCLDVGSSIEGDDTFKKPH +KTSTEQELITSMSLSQRNHGYSDDMEIGSPKKTTSTDQYNRILKNDVAAIENDTDEDFEI +TEVREVSEGVAKETKESHGDPNDSETTLKDSKMHEYTMTNGKAPLHTSINNSSTSSNDVL +LEAFTNTQRICSNLKQELQKQQQDNAKLKVRLQSYASNSDKINEKVGKYKSCLETLQERI +ATLTSHKNNQETKLKDLRQNHQLYQRRISGFKTSIENLNKTINDLGKNKKEADAELMKKG +KEIEYLKRELDDCSGQLSEEKIKNSSLIQEMGKNREEMIKSIENFFSEDKAHHLLQFNKF +EERVHDLFEKKLQKHFDVAKDTLNVGLRNTTVELSSNTETMLKQQYEDIKENLEQKMSSS +KDEMAKTINELSVTQKGLIMGVQEELLTSSGNIQTALVSEMNNTRQELLDDASQTAKNYA +SLENLVKAYKAEIVQSNEYEERIKHLESERSTLSSQKNQIISSLGTKEAQYEDLVKKLEA +KNIEISQISGKEQSLTEKNENLSNELKKVQDQLEKLNNLNITTKSNYENKISSQNEIVKA +LVSENDTLKQRIQQLVEIKENEQKDHTTKLEAFQKNNEQLQKLNVEVVQLKAHELELEEQ +NRHLKNCLEKKETGVEESLSDVKTLKQQVIVLKSEKQDITAEKLELQDNLESLEEVTKNL +QQKVQSQKRELEQKIKELEEIKNHKRNEPSKKGTQNFTKPSDSPKKNATTSNLFPNNSAA +IHSPMKKCPKVDHISKSRINSSKETSKFNDEFDLSSSSNDDLELTNPSPIQIKPVRGKIK +KGSNCMKPPISSRKKLLLVEDEDQSLKISKKRRRK + +>sp|P0CX75|YL13A_YEAST Transposon Ty1-LR3 Gag polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TY1A-LR3 PE=2 SV=1 +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPAS +SAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPM +YFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPND +FPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDI +LSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNN +GIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNY +RRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKS +TTEPIQLNNKHDLHLRPGTY + diff --git a/tools/metamorpheus/test-data/SmallYeastGPTMD.xml b/tools/metamorpheus/test-data/SmallYeastGPTMD.xml new file mode 100644 index 000000000..b2d3eb15a --- /dev/null +++ b/tools/metamorpheus/test-data/SmallYeastGPTMD.xml @@ -0,0 +1,1911 @@ + + + ID Ammonia loss on N +MT Common Artifact +TG N +PP Anywhere. +CF H-3N-1 +MM -17.026549101 +DR Unimod; 385 + +// + ID Citrullination on R +MT Common Biological +TG R +PP Anywhere. +CF H-1N-1O +MM 0.984015583 +DR Unimod; 7 +NL HCD:43.0058 +DI HCD:129.090223533 + +// + ID Deamidation on N +MT Common Artifact +TG N +PP Anywhere. +CF H-1N-1O +MM 0.984015583 +DR Unimod; 7 + +// + ID Deamidation on Q +MT Common Artifact +TG Q +PP Anywhere. +CF H-1N-1O +MM 0.984015583 +DR Unimod; 7 + +// + ID Dimethylation on K +MT Common Biological +TG K +PP Anywhere. +CF C2H4 +MM 28.031300129 +DR Unimod; 36 + +// + ID Hydroxylation on K +MT Common Biological +TG K +PP Anywhere. +CF O +MM 15.99491462 +DR Unimod; 35 + +// + ID Hydroxylation on N +MT Common Biological +TG N +PP Anywhere. +CF O +MM 15.99491462 +DR Unimod; 35 + +// + ID Hydroxylation on P +MT Common Biological +TG P +PP Anywhere. +CF O +MM 15.99491462 +DR Unimod; 35 +DI HCD:170.060123533 + +// + ID Methylation on K +MT Common Biological +TG K +PP Anywhere. +CF CH2 +MM 14.015650064 +DR Unimod; 34 + +// + ID Methylation on R +MT Common Biological +TG R +PP Anywhere. +CF CH2 +MM 14.015650064 +DR Unimod; 34 + +// + ID Succinylation on K +MT Common Biological +TG K +PP Anywhere. +CF C4H4O3 +MM 100.016043988 +DR Unimod; 64 +NL ETD:101.0239 +DI HCD:183.089523533 + +// + ID Trimethylation on K +MT Common Biological +TG K +PP Anywhere. +CF C3H6 +MM 42.046950193 +DR Unimod; 37 +NL ETD:45.0204 + +// + + P38013 + Peroxiredoxin type-2 + + + Peroxiredoxin type-2 + + + + AHP1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSDLVNKKFPAGDYKFQYIAISQSDADSESCKMPQTVEWSKLISENKKVIITGAPAAFSPTCTVSHIPGYINYLDELVKEKEVDQVIVVTVDNPFANQAWAKSLGVKDTTHIKFASDPGCAFTKSIGFELAVGDGVYWSGRWAMVVENGIVTYAAKETNPGTDVTVSSVESVLAHL + + + P46672 + tRNA-aminoacylation cofactor ARC1 + + + tRNA-aminoacylation cofactor ARC1 + + + + ARC1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSDLVTKFESLIISKYPVSFTKEQSAQAAQWESVLKSGQIQPHLDQLNLVLRDNTFIVSTLYPTSTDVHVFEVALPLIKDLVASSKDVKSTYTTYRHILRWIDYMQNLLEVSSTDKLEINHDLDLPHEVIEKKKKAPAGGAADAAAKADEDVSKKAKKQDHPRGKPDEETLKKLREEAKAKKAAKKAANAKQQQEQQNKAPEKPKPSAIDFRVGFIQKAIKHPDADSLYVSTIDVGDEEGPRTVCSGLVKHFPLDAMQERYVVVVCNLKPVNMRGIKSTAMVLCGSNDDKVEFVEPPKDSKAGDKVFFEGFGDEAPMKQLNPKKKIWEHLQPHFTTNDGLEVIFKDEEEKDHPVRKLTNAKGESFKVASIANAQVR + + + Q01389 + Serine/threonine-protein kinase BCK1/SLK1/SSP31 + + + Serine/threonine-protein kinase BCK1/SLK1/SSP31 + + + + BCK1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MPFLRKIAGTAHTHSRSDSNSSVKFGHQPTSSVASTKSSSKSPRATSRKSIYDDIRSQFPNLTPNSTSSQFYESTPVIEQSFNWTTDDHISAGTLENPTSFTNSSYKNDNGPSSLSDSRKSSGGNSVNSLSFDKLILSWDPTDPDEWTMHRVTSWFKFHDFPESWILFFKKHQLFGHRFIKLLAYDNFAVYEKYLPQTKTASYTRFQQLLKKTMTKNVTNSHIRQKSASKLKSSRSSSESIKSKLKNSKSQEDISNSRSTSESALSPTKSGPSKTDEKNFLHSTSTHQKTKSASSLYRRSFISLRGSSSSNASSAKSPSNIKLSIPARPHSIIESNSTLTKSASPPASPSYPSIFRRHHKSSSSESSLLNSLFGSGIGEEAPTKPNPQGHSLSSENLAKGKSKHYETNVSSPLKQSSLPTSDDKGNLWNKFKRKSQIGVPSPNTVAYVTSQETPSLKSNSSTATLTVQTADVNIPSPSSSPPPIPKTANRSLEVISTEDTPKISSTTASFKETYPDCINPDKTVPVPVNNQKYSVKNFLLDQKFYPLKKTGLNDSENKYILVTKDNVSFVPLNLKSVAKLSSFKESALTKLGINHKNVTFHMTDFDCDIGAAIPDDTLEFLKKSLFLNTSGKIYIKDQMKLQQKPKPAPLTSENNVPLKSVKSKSSMRSGTSSLIASTDDVSIVTSSSDITSFDEHASGSGRRYPQTPSYYYDRVSNTNPTEELNYWNIKEVLSHEENAPKMVFKTSPKLELNLPDKGSKLNIPTPITENESKSSFQVLRKDEGTEIDFNHRRESPYTKPELAPKREAPKPPANTSPQRTLSTSKQNKPIRLVRASTKISRSKRSKPLPPQLLSSPIEASSSSPDSLTSSYTPASTHVLIPQPYKGANDVMRRLKTDQDSTSTSPSLKMKQKVNRSNSTVSTSNSIFYSPSPLLKRGNSKRVVSSTSAADIFEENDITFADAPPMFDSDDSDDDSSSSDDIIWSKKKTAPETNNENKKDEKSDNSSTHSDEIFYDSQTQDKMERKMTFRPSPEVVYQNLEKFFPRANLDKPITEGIASPTSPKSLDSLLSPKNVASSRTEPSTPSRPVPPDSSYEFIQDGLNGKNKPLNQAKTPKRTKTIRTIAHEASLARKNSVKLKRQNTKMWGTRMVEVTENHMVSINKAKNSKGEYKEFAWMKGEMIGKGSFGAVYLCLNVTTGEMMAVKQVEVPKYSSQNEAILSTVEALRSEVSTLKDLDHLNIVQYLGFENKNNIYSLFLEYVAGGSVGSLIRMYGRFDEPLIKHLTTQVLKGLAYLHSKGILHRDMKADNLLLDQDGICKISDFGISRKSKDIYSNSDMTMRGTVFWMAPEMVDTKQGYSAKVDIWSLGCIVLEMFAGKRPWSNLEVVAAMFKIGKSKSAPPIPEDTLPLISQIGRNFLDACFEINPEKRPTANELLSHPFSEVNETFNFKSTRLAKFIKSNDKLNSSKLRITSQENKTE + + + P07267 + Saccharopepsin + + + Saccharopepsin + + + + PEP4 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MFSLKALLPLALLLVSANQVAAKVHKAKIYKHELSDEMKEVTFEQHLAHLGQKYLTQFEKANPEVVFSREHPFFTEGGHDVPLTNYLNAQYYTDITLGTPPQNFKVILDTGSSNLWVPSNECGSLACFLHSKYDHEASSSYKANGTEFAIQYGTGSLEGYISQDTLSIGDLTIPKQDFAEATSEPGLTFAFGKFDGILGLGYDTISVDKVVPPFYNAIQQDLLDEKRFAFYLGDTSKDTENGGEATFGGIDESKFKGDITWLPVRRKAYWEVKFEGIGLGDEYAELESHGAAIDTGTSLITLPSGLAEMINAEIGAKKGWTGQYTLDCNTRDNLPDLIFNFNGYNFTIGPYDYTLEVSGSCISAITPMDFPEPVGPLAIVGDAFLRKYYSIYDLGNNAVGLAKAI + + + P29547 + Elongation factor 1-gamma 1 + + + Elongation factor 1-gamma 1 + + + + CAM1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSQGTLYANFRIRTWVPRGLVKALKLDVKVVTPDAAAEQFARDFPLKKVPAFVGPKGYKLTEAMAINYYLVKLSQDDKMKTQLLGADDDLNAQAQIIRWQSLANSDLCIQIANTIVPLKGGAPYNKKSVDSAMDAVDKIVDIFENRLKNYTYLATENISLADLVAASIFTRYFESLFGTEWRAQHPAIVRWFNTVRASPFLKDEYKDFKFADKPLSPPQKKKEKKAPAAAPAASKKKEEAKPAATETETSSKKPKHPLELLGKSTFVLDDWKRKYSNEDTRPVALPWFWEHYNPEEYSLWKVTYKYNDELTLTFMSNNLVGGFFNRLSASTKYMFGCLVVYGENNNNGIVGAVMVRGQDYVPAFDVAPDWESYDYAKLDPTNDDDKEFINNMWAWDKPVSVNGEPKEIVDGKVLK + + + P43616 + Cys-Gly metallodipeptidase DUG1 + + + Cys-Gly metallodipeptidase DUG1 + + + + DUG1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSHSLTSVFQKIDSLKPQFFSRLTKAIQIPAVSSDESLRSKVFDKAKFISEQLSQSGFHDIKMVDLGIQPPPISTPNLSLPPVILSRFGSDPSKKTVLVYGHYDVQPAQLEDGWDTEPFKLVIDEAKGIMKGRGVTDDTGPLLSWINVVDAFKASGQEFPVNLVTCFEGMEESGSLKLDELIKKEANGYFKGVDAVCISDNYWLGTKKPVLTYGLRGCNYYQTIIEGPSADLHSGIFGGVVAEPMIDLMQVLGSLVDSKGKILIDGIDEMVAPLTEKEKALYKDIEFSVEELNAATGSKTSLYDKKEDILMHRWRYPSLSIHGVEGAFSAQGAKTVIPAKVFGKFSIRTVPDMDSEKLTSLVQKHCDAKFKSLNSPNKCRTELIHDGAYWVSDPFNAQFTAAKKATKLVYGVDPDFTREGGSIPITLTFQDALNTSVLLLPMGRGDDGAHSINEKLDISNFVGGMKTMAAYLQYYSESPEN + + + P02994 + Elongation factor 1-alpha + + + Elongation factor 1-alpha + + + + TEF1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + + + + + + + + + + + MGKEKSHINVVVIGHVDSGKSTTTGHLIYKCGGIDKRTIEKFEKEAAELGKGSFKYAWVLDKLKAERERGITIDIALWKFETPKYQVTVIDAPGHRDFIKNMITGTSQADCAILIIAGGVGEFEAGISKDGQTREHALLAFTLGVRQLIVAVNKMDSVKWDESRFQEIVKETSNFIKKVGYNPKTVPFVPISGWNGDNMIEATTNAPWYKGWEKETKAGVVKGKTLLEAIDAIEQPSRPTDKPLRLPLQDVYKIGGIGTVPVGRVETGVIKPGMVVTFAPAGVTTEVKSVEMHHEQLEQGVPGDNVGFNVKNVSVKEIRRGNVCGDAKNDPPKGCASFNATVIVLNHPGQISAGYSPVLDCHTAHIACRFDELLEKNDRRSGKKLEDHPKFLKSGDAALVKFVPSKPMCVEAFSEYPPLGRFAVRDMRQTVAVGVIKSVDKTEKAAKVTKAAQKAAKK + + + P16521 + Elongation factor 3A + + + Elongation factor 3A + + + + YEF3 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + + + + + + MSDSQQSIKVLEELFQKLSVATADNRHEIASEVASFLNGNIIEHDVPEHFFGELAKGIKDKKTAANAMQAVAHIANQSNLSPSVEPYIVQLVPAICTNAGNKDKEIQSVASETLISIVNAVNPVAIKALLPHLTNAIVETNKWQEKIAILAAISAMVDAAKDQVALRMPELIPVLSETMWDTKKEVKAAATAAMTKATETVDNKDIERFIPSLIQCIADPTEVPETVHLLGATTFVAEVTPATLSIMVPLLSRGLNERETGIKRKSAVIIDNMCKLVEDPQVIAPFLGKLLPGLKSNFATIADPEAREVTLRALKTLRRVGNVGEDDAIPEVSHAGDVSTTLQVVNELLKDETVAPRFKIVVEYIAAIGADLIDERIIDQQAWFTHITPYMTIFLHEKKAKDILDEFRKRAVDNIPVGPNFDDEEDEGEDLCNCEFSLAYGAKILLNKTQLRLKRARRYGICGPNGCGKSTLMRAIANGQVDGFPTQEECRTVYVEHDIDGTHSDTSVLDFVFESGVGTKEAIKDKLIEFGFTDEMIAMPISALSGGWKMKLALARAVLRNADILLLDEPTNHLDTVNVAWLVNYLNTCGITSITISHDSVFLDNVCEYIINYEGLKLRKYKGNFTEFVKKCPAAKAYEELSNTDLEFKFPEPGYLEGVKTKQKAIVKVTNMEFQYPGTSKPQITDINFQCSLSSRIAVIGPNGAGKSTLINVLTGELLPTSGEVYTHENCRIAYIKQHAFAHIESHLDKTPSEYIQWRFQTGEDRETMDRANRQINENDAEAMNKIFKIEGTPRRIAGIHSRRKFKNTYEYECSFLLGENIGMKSERWVPMMSVDNAWIPRGELVESHSKMVAEVDMKEALASGQFRPLTRKEIEEHCSMLGLDPEIVSHSRIRGLSGGQKVKLVLAAGTWQRPHLIVLDEPTNYLDRDSLGALSKALKEFEGGVIIITHSAEFTKNLTEEVWAVKDGRMTPSGHNWVSGQGAGPRIEKKEDEEDKFDAMGNKIAGGKKKKKLSSAELRKKKKERMKKKKELGDAYVSSDEEF + + + P53911 + Chromatin modification-related protein EAF7 + + + Chromatin modification-related protein EAF7 + + + + EAF7 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MVVHWTIVDEIRLLRWASEFKPAGIHKHFHMFCIVERMNSPDKYPVTLLQKETMKLGKVFTAKDIWDKLSQSYNLEKIDEMENTYSLEATTESSRNGNGNGDDAEIHEETLLELNNRIRVRKQDFTLPWEEYGELILENARKSPNSNEEYPRVEDMNEKDSTIPKESPSTDLKNDNNKQEKNATIKVKELPEYHTEENDSPIDVQKEPIKEVQSDEKELQREHMSEEEQKMKSTNKTAAPVRKSQRLKRSKEVKFEDEEKEEIEEDNTKDEEQKEKKEEIQEPKITHNEEVDKEKNENEEGDDEREKSTSYENTNGSESEGVDEGVDEELGYESEREAEGKGKQIESEGGNLKKKTENKKGDDQQDDTKKDSKDKNEPLAKRTRHSSSTGNTSNETSPKRKRRKAGSRKNSPPATRVSSRLRNKK + + + P00359 + Glyceraldehyde-3-phosphate dehydrogenase 3 + + + Glyceraldehyde-3-phosphate dehydrogenase 3 + + + + TDH3 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MVRVAINGFGRIGRLVMRIALSRPNVEVVALNDPFITNDYAAYMFKYDSTHGRYAGEVSHDDKHIIVDGKKIATYQERDPANLPWGSSNVDIAIDSTGVFKELDTAQKHIDAGAKKVVITAPSSTAPMFVMGVNEEKYTSDLKIVSNASCTTNCLAPLAKVINDAFGIEEGLMTTVHSLTATQKTVDGPSHKDWRGGRTASGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTVDVSVVDLTVKLNKETTYDEIKKVVKAAAEGKLKGVLGYTEDAVVSSDFLGDSHSSIFDASAGIQLSPKFVKLVSWYDNEYGYSTRVVDLVEHVAKA + + + P00358 + Glyceraldehyde-3-phosphate dehydrogenase 2 + + + Glyceraldehyde-3-phosphate dehydrogenase 2 + + + + TDH2 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MVRVAINGFGRIGRLVMRIALQRKNVEVVALNDPFISNDYSAYMFKYDSTHGRYAGEVSHDDKHIIVDGHKIATFQERDPANLPWASLNIDIAIDSTGVFKELDTAQKHIDAGAKKVVITAPSSTAPMFVMGVNEEKYTSDLKIVSNASCTTNCLAPLAKVINDAFGIEEGLMTTVHSMTATQKTVDGPSHKDWRGGRTASGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTVDVSVVDLTVKLNKETTYDEIKKVVKAAAEGKLKGVLGYTEDAVVSSDFLGDSNSSIFDAAAGIQLSPKFVKLVSWYDNEYGYSTRVVDLVEHVAKA + + + P24583 + Protein kinase C-like 1 + + + Protein kinase C-like 1 + + + + PKC1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSFSQLEQNIKKKIAVEENIIRGASALKKKTSNVMVIQKCNTNIREARQNLEYLEDSLKKLRLKTAQQSQGENGSEDNERCNSKEYGFLSTKSPNEHIFSRLDLVKYDCPSLAQRIQYMLQQLEFKLQVEKQYQEANTKLTKLYQIDGDQRSSSAAEGGAMESKYRIQMLNKALKKYQAINVDFDQFKHQPNDIMDNQQPKFRRKQLTGVLTIGITAARDVDHIQSPMFARKPESYVTIKIDDTIKARTKPSRNDRWSEDFQIPVEKGNEIEITVYDKVNDSLIPVAIMWLLLSDIAEEIRKKKAGQTNEQQGWVNASNINGGSSLASEEGSTLTSTYSNSAIQSTSAKNVQGENTSTSQISTNSWFVLEPSGQILLTLGFHKSSQIERKQLMGGLHRHGAIINRKEEIFEQHGHHFVQKSFYNIMCCAYCGDFLRYTGFQCQDCKFLCHKKCYTNVVTKCIAKTSTDTDPDEAKLNHRIPHRFLPTSNRGTKWCCHCGYILPWGRHKVRKCSECGIMCHAQCAHLVPDFCGMSMEMANKILKTIQDTKRNQEKKKRTVPSAQLGSSIGTANGSDLSPSKLAERANAPLPPQPRKHDKTPSPQKVGRDSPTKQHDPIIDKRISLQTHGREKLNKFIDENEAYLNFTEGAQQTAEFSSPEKTLDPTSNRRSLGLTDLSIEHSQTWESKDDLMRDELELWKAQREEMELEIKQDSGEIQEDLEVDHIDLETKQKLDWENKNDFREADLTIDSTHTNPFRDMNSETFQIEQDHASKEVLQETVSLAPTSTHASRTTDQQSPQKSQTSTSAKHKKRAAKRRKVSLDNFVLLKVLGKGNFGKVILSKSKNTDRLCAIKVLKKDNIIQNHDIESARAEKKVFLLATKTKHPFLTNLYCSFQTENRIYFAMEFIGGGDLMWHVQNQRLSVRRAKFYAAEVLLALKYFHDNGVIYRDLKLENILLTPEGHIKIADYGLCKDEMWYGNRTSTFCGTPEFMAPEILKEQEYTKAVDWWAFGVLLYQMLLCQSPFSGDDEDEVFNAILTDEPLYPIDMAGEIVQIFQGLLTKDPEKRLGAGPRDADEVMEEPFFRNINFDDILNLRVKPPYIPEIKSPEDTSYFEQEFTSAPPTLTPLPSVLTTSQQEEFRGFSFMPDDLDL + + + Q12460 + Nucleolar protein 56 + + + Nucleolar protein 56 + + + + NOP56 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MAPIEYLLFEEPTGYAVFKVKLQQDDIGSRLKEVQEQINDFGAFTKLIELVSFAPFKGAAEALENANDISEGLVSESLKAILDLNLPKASSKKKNITLAISDKNLGPSIKEEFPYVDCISNELAQDLIRGVRLHGEKLFKGLQSGDLERAQLGLGHAYSRAKVKFSVQKNDNHIIQAIALLDQLDKDINTFAMRVKEWYGWHFPELAKLVPDNYTFAKLVLFIKDKASLNDDSLHDLAALLNEDSGIAQRVIDNARISMGQDISETDMENVCVFAQRVASLADYRRQLYDYLCEKMHTVAPNLSELIGEVIGARLISHAGSLTNLSKQAASTVQILGAEKALFRALKTKGNTPKYGLIYHSGFISKASAKNKGRISRYLANKCSMASRIDNYSEEPSNVFGSVLKKQVEQRLEFYNTGKPTLKNELAIQEAMELYNKDKPAAEVEETKEKESSKKRKLEDDDEEKKEKKEKKSKKEKKEKKEKKDKKEKKDKKEKKDKKKKSKD + + + Q99207 + Nucleolar complex protein 14 + + + Nucleolar complex protein 14 + + + + NOP14 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MAGSQLKNLKAALKARGLTGQTNVKSKNKKNSKRQAKEYDREEKKKAIAEIREEFNPFEIKAARNKRRDGLPSKTADRIAVGKPGISKQIGEEQRKRAFEARKMMKNKRGGVIDKRFGERDKLLTEEEKMLERFTRERQSQSKRNANLFNLEDDEDDGDMFGDGLTHLGQSLSLEDELANDEEDFLASKRFNEDDAELQQPQRKKTKAEVMKEVIAKSKFYKQERQKAQGIMEDQIDNLDDNFEDVMSELMMTQPKKNPMEPKTDLDKEYDIKVKELQLDKRAAPSDRTKTEEEKNAEAEEKKRELEQQRLDRMNGMIELEEGEERGVEDLDDGFWENEEDYEDDNDGIADSDDDIKFEDQGRDEGFSQILKKKNISISCPRTHDALLDQVKKLDLDDHPKIVKNIIKAYQPKLAEGNKEKLGKFTAVLLRHIIFLSNQNYLKNVQSFKRTQNALISILKSLSEKYNRELSEECRDYINEMQARYKKNHFDALSNGDLVFFSIIGILFSTSDQYHLVITPALILMSQFLEQIKFNSLKRIAFGAVLVRIVSQYQRISKRYIPEVVYFFQKILLTFIVEKENQEKPLDFENIRLDSYELGLPLDVDFTKKRSTIIPLHTLSTMDTEAHPVDQCVSVLLNVMESLDATISTVWKSLPAFNEIILPIQQLLSAYTSKYSDFEKPRNILNKVEKLTKFTEHIPLALQNHKPVSIPTHAPKYEENFNPDKKSYDPDRTRSEINKMKAQLKKERKFTMKEIRKDAKFEARQRIEEKNKESSDYHAKMAHIVNTINTEEGAEKNKYERERKLRGGKK + + + P54784 + Origin recognition complex subunit 1 + + + Origin recognition complex subunit 1 + + + + ORC1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MAKTLKDLQGWEIITTDEQGNIIDGGQKRLRRRGAKTEHYLKRSSDGIKLGRGDSVVMHNEAAGTYSVYMIQELRLNTLNNVVELWALTYLRWFEVNPLAHYRQFNPDANILNRPLNYYNKLFSETANKNELYLTAELAELQLFNFIRVANVMDGSKWEVLKGNVDPERDFTVRYICEPTGEKFVDINIEDVKAYIKKVEPREAQEYLKDLTLPSKKKEIKRGPQKKDKATQTAQISDAETRATDITDNEDGNEDESSDYESPSDIDVSEDMDSGEISADELEEEEDEEEDEDEEEKEARHTNSPRKRGRKIKLGKDDIDASVQPPPKKRGRKPKDPSKPRQMLLISSCRANNTPVIRKFTKKNVARAKKKYTPFSKRFKSIAAIPDLTSLPEFYGNSSELMASRFENKLKTTQKHQIVETIFSKVKKQLNSSYVKEEILKSANFQDYLPARENEFASIYLSAYSAIESDSATTIYVAGTPGVGKTLTVREVVKELLSSSAQREIPDFLYVEINGLKMVKPTDCYETLWNKVSGERLTWAASMESLEFYFKRVPKNKKKTIVVLLDELDAMVTKSQDIMYNFFNWTTYENAKLIVIAVANTMDLPERQLGNKITSRIGFTRIMFTGYTHEELKNIIDLRLKGLNDSFFYVDTKTGNAILIDAAGNDTTVKQTLPEDVRKVRLRMSADAIEIASRKVASVSGDARRALKVCKRAAEIAEKHYMAKHGYGYDGKTVIEDENEEQIYDDEDKDLIESNKAKDDNDDDDDNDGVQTVHITHVMKALNETLNSHVITFMTRLSFTAKLFIYALLNLMKKNGSQEQELGDIVDEIKLLIEVNGSNKFVMEIAKTLFQQGSDNISEQLRIISWDFVLNQLLDAGILFKQTMKNDRICCVKLNISVEEAKRAMNEDETLRNL + + + P06169 + Pyruvate decarboxylase isozyme 1 + + + Pyruvate decarboxylase isozyme 1 + + + + PDC1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSEITLGKYLFERLKQVNVNTVFGLPGDFNLSLLDKIYEVEGMRWAGNANELNAAYAADGYARIKGMSCIITTFGVGELSALNGIAGSYAEHVGVLHVVGVPSISAQAKQLLLHHTLGNGDFTVFHRMSANISETTAMITDIATAPAEIDRCIRTTYVTQRPVYLGLPANLVDLNVPAKLLQTPIDMSLKPNDAESEKEVIDTILALVKDAKNPVILADACCSRHDVKAETKKLIDLTQFPAFVTPMGKGSIDEQHPRYGGVYVGTLSKPEVKEAVESADLILSVGALLSDFNTGSFSYSYKTKNIVEFHSDHMKIRNATFPGVQMKFVLQKLLTTIADAAKGYKPVAVPARTPANAAVPASTPLKQEWMWNQLGNFLQEGDVVIAETGTSAFGINQTTFPNNTYGISQVLWGSIGFTTGATLGAAFAAEEIDPKKRVILFIGDGSLQLTVQEISTMIRWGLKPYLFVLNNDGYTIEKLIHGPKAQYNEIQGWDHLSLLPTFGAKDYETHRVATTGEWDKLTQDKSFNDNSKIRMIEIMLPVFDAPQNLVEQAKLTAATNAKQ + + + P02293 + Histone H2B.1 + + + Histone H2B.1 + + + + HTB1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSAKAEKKPASKAPAEKKPAAKKTSTSTDGKKRSKARKETYSSYIYKVLKQTHPDTGISQKSMSILNSFVNDIFERIATEASKLAAYNKKSTISAREIQTAVRLILPGELAKHAVSEGTRAVTKYSSSTQA + + + P02294 + Histone H2B.2 + + + Histone H2B.2 + + + + HTB2 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + MSSAAEKKPASKAPAEKKPAAKKTSTSVDGKKRSKVRKETYSSYIYKVLKQTHPDTGISQKSMSILNSFVNDIFERIATEASKLAAYNKKSTISAREIQTAVRLILPGELAKHAVSEGTRAVTKYSSSTQA + + + P15108 + ATP-dependent molecular chaperone HSC82 + + + ATP-dependent molecular chaperone HSC82 + + + + HSC82 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MAGETFEFQAEITQLMSLIINTVYSNKEIFLRELISNASDALDKIRYQALSDPKQLETEPDLFIRITPKPEEKVLEIRDSGIGMTKAELINNLGTIAKSGTKAFMEALSAGADVSMIGQFGVGFYSLFLVADRVQVISKNNEDEQYIWESNAGGSFTVTLDEVNERIGRGTVLRLFLKDDQLEYLEEKRIKEVIKRHSEFVAYPIQLLVTKEVEKEVPIPEEEKKDEEKKDEDDKKPKLEEVDEEEEEKKPKTKKVKEEVQELEELNKTKPLWTRNPSDITQEEYNAFYKSISNDWEDPLYVKHFSVEGQLEFRAILFIPKRAPFDLFESKKKKNNIKLYVRRVFITDEAEDLIPEWLSFVKGVVDSEDLPLNLSREMLQQNKIMKVIRKNIVKKLIEAFNEIAEDSEQFDKFYSAFAKNIKLGVHEDTQNRAALAKLLRYNSTKSVDELTSLTDYVTRMPEHQKNIYYITGESLKAVEKSPFLDALKAKNFEVLFLTDPIDEYAFTQLKEFEGKTLVDITKDFELEETDEEKAEREKEIKEYEPLTKALKDILGDQVEKVVVSYKLLDAPAAIRTGQFGWSANMERIMKAQALRDSSMSSYMSSKKTFEISPKSPIIKELKKRVDEGGAQDKTVKDLTNLLFETALLTSGFSLEEPTSFASRINRLISLGLNIDEDEETETAPEASTEAPVEEVPADTEMEEVD + + + P10591 + Heat shock protein SSA1 + + + Heat shock protein SSA1 + + + + SSA1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + + + + + + + + + + + MSKAVGIDLGTTYSCVAHFANDRVDIIANDQGNRTTPSFVAFTDTERLIGDAAKNQAAMNPSNTVFDAKRLIGRNFNDPEVQADMKHFPFKLIDVDGKPQIQVEFKGETKNFTPEQISSMVLGKMKETAESYLGAKVNDAVVTVPAYFNDSQRQATKDAGTIAGLNVLRIINEPTAAAIAYGLDKKGKEEHVLIFDLGGGTFDVSLLSIEDGIFEVKATAGDTHLGGEDFDNRLVNHFIQEFKRKNKKDLSTNQRALRRLRTACERAKRTLSSSAQTSVEIDSLFEGIDFYTSITRARFEELCADLFRSTLDPVEKVLRDAKLDKSQVDEIVLVGGSTRIPKVQKLVTDYFNGKEPNRSINPDEAVAYGAAVQAAILTGDESSKTQDLLLLDVAPLSLGIETAGGVMTKLIPRNSTIPTKKSEIFSTYADNQPGVLIQVFEGERAKTKDNNLLGKFELSGIPPAPRGVPQIEVTFDVDSNGILNVSAVEKGTGKSNKITITNDKGRLSKEDIEKMVAEAEKFKEEDEKESQRIASKNQLESIAYSLKNTISEAGDKLEQADKDTVTKKAEETISWLDSNTTASKEEFDDKLKELQDIANPIMSKLYQAGGAPGGAAGGAPGGFPGGAPPAPEAEGPTVEEVD + + + P10592 + Heat shock protein SSA2 + + + Heat shock protein SSA2 + + + + SSA2 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + + + + + + + + + + + MSKAVGIDLGTTYSCVAHFSNDRVDIIANDQGNRTTPSFVGFTDTERLIGDAAKNQAAMNPANTVFDAKRLIGRNFNDPEVQGDMKHFPFKLIDVDGKPQIQVEFKGETKNFTPEQISSMVLGKMKETAESYLGAKVNDAVVTVPAYFNDSQRQATKDAGTIAGLNVLRIINEPTAAAIAYGLDKKGKEEHVLIFDLGGGTFDVSLLSIEDGIFEVKATAGDTHLGGEDFDNRLVNHFIQEFKRKNKKDLSTNQRALRRLRTACERAKRTLSSSAQTSVEIDSLFEGIDFYTSITRARFEELCADLFRSTLDPVEKVLRDAKLDKSQVDEIVLVGGSTRIPKVQKLVTDYFNGKEPNRSINPDEAVAYGAAVQAAILTGDESSKTQDLLLLDVAPLSLGIETAGGVMTKLIPRNSTIPTKKSEVFSTYADNQPGVLIQVFEGERAKTKDNNLLGKFELSGIPPAPRGVPQIEVTFDVDSNGILNVSAVEKGTGKSNKITITNDKGRLSKEDIEKMVAEAEKFKEEDEKESQRIASKNQLESIAYSLKNTISEAGDKLEQADKDAVTKKAEETIAWLDSNTTATKEEFDDQLKELQEVANPIMSKLYQAGGAPEGAAPGGFPGGAPPAPEAEGPTVEEVD + + + P0CS90 + Heat shock protein SSC1, mitochondrial + + + Heat shock protein SSC1, mitochondrial + + + + SSC1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MLAAKNILNRSSLSSSFRIATRLQSTKVQGSVIGIDLGTTNSAVAIMEGKVPKIIENAEGSRTTPSVVAFTKEGERLVGIPAKRQAVVNPENTLFATKRLIGRRFEDAEVQRDIKQVPYKIVKHSNGDAWVEARGQTYSPAQIGGFVLNKMKETAEAYLGKPVKNAVVTVPAYFNDSQRQATKDAGQIVGLNVLRVVNEPTAAALAYGLEKSDSKVVAVFDLGGGTFDISILDIDNGVFEVKSTNGDTHLGGEDFDIYLLREIVSRFKTETGIDLENDRMAIQRIREAAEKAKIELSSTVSTEINLPFITADASGPKHINMKFSRAQFETLTAPLVKRTVDPVKKALKDAGLSTSDISEVLLVGGMSRMPKVVETVKSLFGKDPSKAVNPDEAVAIGAAVQGAVLSGEVTDVLLLDVTPLSLGIETLGGVFTRLIPRNTTIPTKKSQIFSTAAAGQTSVEIRVFQGERELVRDNKLIGNFTLAGIPPAPKGVPQIEVTFDIDADGIINVSARDKATNKDSSITVAGSSGLSENEIEQMVNDAEKFKSQDEARKQAIETANKADQLANDTENSLKEFEGKVDKAEAQKVRDQITSLKELVARVQGGEEVNAEELKTKTEELQTSSMKLFEQLYKNDSNNNNNNNGNNAESGETKQ + + + P40576 + Inner membrane assembly complex subunit 22 + + + Inner membrane assembly complex subunit 22 + + + + INA22 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MFMARQVLRNGLFLRSLAPIKITARTVASANAGIKRKSRFDKTMIKPLLLVMIFGSILNAVIAEKRNIIDMERKYKLKLDKLKELIRRVHDNNGKVDFDADDELKLVNLRLGIVGKNATGMKEDETDIVVPKEESLEEIWQSIIDEAKKEVIEKTPDAGVKNKEGIVTDLNVLKDLEKSKKEDEKVYLSGDVHMMMNQPGDLNEIAKEHDKIPKFL + + + P02829 + ATP-dependent molecular chaperone HSP82 + + + ATP-dependent molecular chaperone HSP82 + + + + HSP82 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MASETFEFQAEITQLMSLIINTVYSNKEIFLRELISNASDALDKIRYKSLSDPKQLETEPDLFIRITPKPEQKVLEIRDSGIGMTKAELINNLGTIAKSGTKAFMEALSAGADVSMIGQFGVGFYSLFLVADRVQVISKSNDDEQYIWESNAGGSFTVTLDEVNERIGRGTILRLFLKDDQLEYLEEKRIKEVIKRHSEFVAYPIQLVVTKEVEKEVPIPEEEKKDEEKKDEEKKDEDDKKPKLEEVDEEEEKKPKTKKVKEEVQEIEELNKTKPLWTRNPSDITQEEYNAFYKSISNDWEDPLYVKHFSVEGQLEFRAILFIPKRAPFDLFESKKKKNNIKLYVRRVFITDEAEDLIPEWLSFVKGVVDSEDLPLNLSREMLQQNKIMKVIRKNIVKKLIEAFNEIAEDSEQFEKFYSAFSKNIKLGVHEDTQNRAALAKLLRYNSTKSVDELTSLTDYVTRMPEHQKNIYYITGESLKAVEKSPFLDALKAKNFEVLFLTDPIDEYAFTQLKEFEGKTLVDITKDFELEETDEEKAEREKEIKEYEPLTKALKEILGDQVEKVVVSYKLLDAPAAIRTGQFGWSANMERIMKAQALRDSSMSSYMSSKKTFEISPKSPIIKELKKRVDEGGAQDKTVKDLTKLLYETALLTSGFSLDEPTSFASRINRLISLGLNIDEDEETETAPEASTAAPVEEVPADTEMEEVD + + + P32589 + Heat shock protein homolog SSE1 + + + Heat shock protein homolog SSE1 + + + + SSE1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSTPFGLDLGNNNSVLAVARNRGIDIVVNEVSNRSTPSVVGFGPKNRYLGETGKNKQTSNIKNTVANLKRIIGLDYHHPDFEQESKHFTSKLVELDDKKTGAEVRFAGEKHVFSATQLAAMFIDKVKDTVKQDTKANITDVCIAVPPWYTEEQRYNIADAARIAGLNPVRIVNDVTAAGVSYGIFKTDLPEGEEKPRIVAFVDIGHSSYTCSIMAFKKGQLKVLGTACDKHFGGRDFDLAITEHFADEFKTKYKIDIRENPKAYNRILTAAEKLKKVLSANTNAPFSVESVMNDVDVSSQLSREELEELVKPLLERVTEPVTKALAQAKLSAEEVDFVEIIGGTTRIPTLKQSISEAFGKPLSTTLNQDEAIAKGAAFICAIHSPTLRVRPFKFEDIHPYSVSYSWDKQVEDEDHMEVFPAGSSFPSTKLITLNRTGDFSMAASYTDITQLPPNTPEQIANWEITGVQLPEGQDSVPVKLKLRCDPSGLHTIEEAYTIEDIEVEEPIPLPEDAPEDAEQEFKKVTKTVKKDDLTIVAHTFGLDAKKLNELIEKENEMLAQDKLVAETEDRKNTLEEYIYTLRGKLEEEYAPFASDAEKTKLQGMLNKAEEWLYDEGFDSIKAKYIAKYEELASLGNIIRGRYLAKEEEKKQAIRSKQEASQMAAMAEKLAAQRKAEAEKKEEKKDTEGDVDMD + + + P46997 + J protein JJJ2 + + + J protein JJJ2 + + + + JJJ2 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSQVIEPQLDRTTYYSILGLTSNATSSEVHKSYLKLARLLHPDKTKSDKSEELFKAVVHAHSILTDEDQKLRYDRDLKIKGLHTYQPKKNCHIFKTKAKESQGASPTLGQSEAYHRQNKPYEQQPYGFGVGKKMTSSSKSKVPIFKSFNLKSYQRNHYYSSKKERKHGSPDIDSLFHETNGASKVRMTDAGKMDTNSQFQEIWEILGKNAYTHKSYSEDPNSCLGSALSDHEEEEEAGKQQQQQQQQQQQQQHYGMTSKSSSPDEEKKNNKEPKRESRVSPEENGEEETGHKQFKLPKTSTFSSGSHDSNLQSPFYNHEYRHYARSKFECKNQFRKSVSPIKEIPATTSANEGWNILRDIIEKLNISNVDDRNKDLLFRRDEIGDKNHSDSIDIENLSIKEPKGMKRRKKDDISLEELFQSLPREKDYFMMDAINDSLESINLFKKPKTTQSHEQGGTFAQAESNRAKFKPLLEQCGITPEILDLEIPEIPEFDAVADLETLKLNVQLFNNQCNKLKETIHQVSLQRLRADTQFSDMLTQKQSIMVWKTYLEFDKSLMDKLNILQERQMQVIKIFSERCDGKV + + + Q12230 + Sphingolipid long chain base-responsive protein LSP1 + + + Sphingolipid long chain base-responsive protein LSP1 + + + + LSP1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MHRTYSLRNQRAPTAAELQAPPPPPSSTKSKFFGKASIASSFRKNAAGNFGPELARKLSQLVKTEKGVLRAMEVVASERREAAKQLSLWGADNDDDVSDVTDKLGVLIYELGELQDQFIDKYDQYRVTLKSIRNIEASVQPSRDRKEKITDEIAHLKYKDPQSTKIPVLEQELVRAEAESLVAEAQLSNITREKLKAAYSYMFDSLRELSEKFALIAGYGKALLELLDDSPVTPGEARPAYDGYEASRQIIMDAESALESWTLDMAAVKPTLSFHQTVDDVYEDEDGEEEEEPEIQNGDIPGQVVEEEEVEWTTEVPVDDEAHEADHHVSQNGHTSGSENI + + + Q12117 + Protein MRH1 + + + Protein MRH1 + + + + MRH1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSTFETLIKRGGNEAIKINPPTGADFHITSRGSDWFWTCFCCYLLFGLILTFLMFRKPVNDRFFYLTGIAPNFFMCIAYFTMASNLGWIPVKAKYNHVQTSTQKEHPGYRQIFYSRFVGWFLALPWPIIQICMLAGTPFWQMAFNVCITEFFTVCWLIAACVHSTYKWGYYTIGLGAAIVVSISVMTTSYNLVKQRDNDIRLTFLVFFSIIMFLWIIAYPTCFGITDGGNVLQPDSAGIFYGIIDLILMCFIPTLLVPIANHFGADKLGYHFGPSDAEAVMAPKAPVASPRPAATPNLSKDKKKKSKKSKKSKKSKKSEE + + + Q06820 + Mitochondrial distribution and morphology protein 36 + + + Mitochondrial distribution and morphology protein 36 + + + + MDM36 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MDENGTVKPGYELKGLNSGNSRSNMDKDPIVSKFHRAGLNDSADEEDTDINGNRNTSWITSMISEEKRKVEGKSMLNDEEDLHLSKATLNKCDALVKILADIIKLEFVIHQSWYIRSLHKSVLIQFEVETSGGNKNSAGDSGDDDDDNHNGNLDDSFYKDLSLKCIKKCEKSSLALESLSRDIDQIRDFIMSNTIEDNRVDRLLQNSMTLLLECWIYSMKRLRRLRMKIAGIFVRSKLLLIDHELVTIWHFLQEQNEHETVNNENELKLAETIKSYRAFIKIFIQQLEDSESGSPSSSLFEECLHVFLDIESMYNSLNLNWLLNENKALQERLLSPSSTSENDHTNNLPVIDETKEIEDISSFVNSIVDASMLTHDLTPINSSDSDNLSNGEIDRLDGRRLSSSTSDMSLMMQRTSLQKQLPSLLTAFNNARRLEQELQNACKVNDNKHSTKDTDSNIRRNEHAMSSSVSSIISQNSTLASPSPPMSSSFISTAPSQSSSRMSTLPLSPSSSLLESQSQTLKNNMSQWLNQSRSGLNGTKLIPTNHIGFHSNVLNTLYGIGGGPVSKSYKSNQPSSQNT + + + O14467 + Multiprotein-bridging factor 1 + + + Multiprotein-bridging factor 1 + + + + MBF1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSDWDTNTIIGSRARAGGSGPRANVARSQGQINAARRQGLVVSVDKKYGSTNTRGDNEGQRLTKVDRETDIVKPKKLDPNVGRAISRARTDKKMSQKDLATKINEKPTVVNDYEAARAIPNQQVLSKLERALGVKLRGNNIGSPLGAPKKK + + + P00560 + Phosphoglycerate kinase + + + Phosphoglycerate kinase + + + + PGK1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSLSSKLSVQDLDLKDKRVFIRVDFNVPLDGKKITSNQRIVAALPTIKYVLEHHPRYVVLASHLGRPNGERNEKYSLAPVAKELQSLLGKDVTFLNDCVGPEVEAAVKASAPGSVILLENLRYHIEEEGSRKVDGQKVKASKEDVQKFRHELSSLADVYINDAFGTAHRAHSSMVGFDLPQRAAGFLLEKELKYFGKALENPTRPFLAILGGAKVADKIQLIDNLLDKVDSIIIGGGMAFTFKKVLENTEIGDSIFDKAGAEIVPKLMEKAKAKGVEVVLPVDFIIADAFSADANTKTVTDKEGIPAGWQGLDNGPESRKLFAATVAKAKTIVWNGPPGVFEFEKFAAGTKALLDEVVKSSAAGNTVIIGGGDTATVAKKYGVTDKISHVSTGGGASLELLEGKELPGVAFLSEKK + + + Q05568 + Peroxisome biogenesis factor 10 + + + Peroxisome biogenesis factor 10 + + + + PEX10 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MKNDNKLQKEALMRLSQLRFPFADAPSIVQAHQKDEQIQGLLIMKVTELCKLIKSQLFVNSYPKELSIFAKLLYLLFTTGRRGRTLGEEYVDLTYTNRKGTRLAGRLKMIVFAFAYPLCPYFITKLYKKIMKNNKESKIEDTESVAAFCKGLLDFILDVHMTLFYFKGAFYSISKRIFGMRYVFKHILSKNEANFREEGSQKYKVLGYILLAQNVMKWYPVLTSTLGSWIYGRKRTNDSITRSSVGLQERSEHESIEGIPKESQLTHINLSDKNQLPFIPEASRKCILCLMNMSDPSCAPCGHLFCWSCLMSWCKERPECPLCRQHCQPQEILVLRQ + + + P00950 + Phosphoglycerate mutase 1 + + + Phosphoglycerate mutase 1 + + + + GPM1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MPKLVLVRHGQSEWNEKNLFTGWVDVKLSAKGQQEAARAGELLKEKKVYPDVLYTSKLSRAIQTANIALEKADRLWIPVNRSWRLNERHYGDLQGKDKAETLKKFGEEKFNTYRRSFDVPPPPIDASSPFSQKGDERYKYVDPNVLPETESLALVIDRLLPYWQDVIAKDLLSGKTVMIAAHGNSLRGLVKHLEGISDADIAKLNIPTGIPLVFELDENLKPSKPSYYLDPEAAAAGAAAVANQGKK + + + O13516 + 40S ribosomal protein S9-A + + + 40S ribosomal protein S9-A + + + + RPS9A + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MPRAPRTYSKTYSTPKRPYESSRLDAELKLAGEFGLKNKKEIYRISFQLSKIRRAARDLLTRDEKDPKRLFEGNALIRRLVRVGVLSEDKKKLDYVLALKVEDFLERRLQTQVYKLGLAKSVHHARVLITQRHIAVGKQIVNIPSFMVRLDSEKHIDFAPTSPFGGARPGRVARRNAARKAEASGEAADEADEADEE + + + P02407 + 40S ribosomal protein S17-A + + + 40S ribosomal protein S17-A + + + + RPS17A + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MGRVRTKTVKRASKALIERYYPKLTLDFQTNKRLCDEIATIQSKRLRNKIAGYTTHLMKRIQKGPVRGISFKLQEEERERKDQYVPEVSALDLSRSNGVLNVDNQTSDLVKSLGLKLPLSVINVSAQRDRRYRKRV + + + P05756 + 40S ribosomal protein S13 + + + 40S ribosomal protein S13 + + + + RPS13 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MGRMHSAGKGISSSAIPYSRNAPAWFKLSSESVIEQIVKYARKGLTPSQIGVLLRDAHGVTQARVITGNKIMRILKSNGLAPEIPEDLYYLIKKAVSVRKHLERNRKDKDAKFRLILIESRIHRLARYYRTVAVLPPNWKYESATASALVN + + + P46784 + 40S ribosomal protein S10-B + + + 40S ribosomal protein S10-B + + + + RPS10B + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + + + + + + MLMPKQERNKIHQYLFQEGVVVAKKDFNQAKHEEIDTKNLYVIKALQSLTSKGYVKTQFSWQYYYYTLTEEGVEYLREYLNLPEHIVPGTYIQERNPSQRPQRRY + + + Q05911 + Adenylosuccinate lyase + + + Adenylosuccinate lyase + + + + ADE13 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MPDYDNYTTPLSSRYASKEMSATFSLRNRFSTWRKLWLNLAIAEKELGLTVVTDEAIEQMRKHVEITDDEIAKASAQEAIVRHDVMAHVHTFGETCPAAAGIIHLGATSCFVTDNADLIFIRDAYDIIIPKLVNVINRLAKFAMEYKDLPVLGWTHFQPAQLTTLGKRATLWIQELLWDLRNFERARNDIGLRGVKGTTGTQASFLALFHGNHDKVEALDERVTELLGFDKVYPVTGQTYSRKIDIDVLAPLSSFAATAHKMATDIRLLANLKEVEEPFEKSQIGSSAMAYKRNPMRCERVCSLARHLGSLFSDAVQTASVQWFERTLDDSAIRRISLPSAFLTADILLSTLLNISSGLVVYPKVIERRIKGELPFMATENIIMAMVEKNASRQEVHERIRVLSHQAAAVVKEEGGENDLIERVKRDEFFKPIWEELDSLLEPSTFVGRAPQQVEKFVQKDVNNALQPFQKYLNDEQVKLNV + + + P28272 + Dihydroorotate dehydrogenase (fumarate) + + + Dihydroorotate dehydrogenase (fumarate) + + + + URA1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MTASLTTKFLNNTYENPFMNASGVHCMTTQELDELANSKAGAFITKSATTLEREGNPEPRYISVPLGSINSMGLPNEGIDYYLSYVLNRQKNYPDAPAIFFSVAGMSIDENLNLLRKIQDSEFNGITELNLSCPNVPGKPQVAYDFDLTKETLEKVFAFFKKPLGVKLPPYFDFAHFDIMAKILNEFPLAYVNSINSIGNGLFIDVEKESVVVKPKNGFGGIGGEYVKPTALANVRAFYTRLRPEIKVIGTGGIKSGKDAFEHLLCGASMLQIGTELQKEGVKIFERIEKELKDIMEAKGYTSIDQFRGKLNSI + + + Q00816 + Resistance to glucose repression protein 1 + + + Resistance to glucose repression protein 1 + + + + REG1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSTNLANYFAGKKDIENEHVNRNASHESNSKSDVKISGNDNDNDEDMGPSVSMAVQAKNDDDFHKSTFNLKRTRSMGLLDEYIDPTKKLLGRSDDLYDNDNEYYDNSSNNSSSNSSDDDYDDGYQEHSTSVSPPPADNDSYLIPQDDNDVVVEPERHVDYLSHEWKESEISNSWKYIILKKKKRDVDLVNAARLENASWRTWAKARNNLKTVSPEVVNWSKDSDVTWLYGPIVRDSEGNAQSEEEHDLERGYGSDDENSKRISMPTKNSKSIAAAPKPILKKRTVTEIIEDNALWKLNEARKHMTEMKHASVIMDPNGNKNVHDDFDALAAQVNAQYYHYPKESNSSVSLKSQHSDKKDNSTIPNPVGENSNGGGDKGEEDLHLKSALHVQNNRSTAQSNKSILENSTNDRKANLDQNLNSPDNNRFPSSTSSSNRDNENNSMGLSSILTSNPSEKSNKPTKNRHIHFNDRVEQCMALRYPASQSEDDESDDENKQYVDVNNNANVTTINNNRTPLLAIQHKSIPINSATEHLNKNTSDDDTSSQSSSSSHSDDEEHGGLYINARFSRRSDSGVHSPITDNSSVASSTTSRAHVRPIIKLLPDTTLNYGSDEESDNGEFNGYGNAVSHNVNTSRGYDYIYDYNSVYTGDTSSFLPVDSCDIVDVPEGMDLQTAIADDNASNYEFNNAVESKEKHVPQLHKASANNTTRQHGSHMLLYDDDNYSSSSDSEQQFIEDSQYNSSDDEEEEDDDDQEVDDNHDEGLSLRRTLSLGKSGSTNSLYDLAQPSLSSATPQQKNPTNFTGGKTDVDKDAQLAVRPYPLKRNSSSGNFIFNSDSEEESSSEEEQRPLPANSQLVNRSVLKGSVTPANISSQKKKALPKQPKASDSSQSFRIVNNTPSPAEVGASDVAIEGYFSPRNESIKSVVSGGNMMDHQDHSEMDTLAKGFENCHINNASKLKDKKVDSVQTTRKEASLTDSSNESLHKVVQNARGMASKYLHSWKKSDVKPQENGNDSS + + + P0CX50 + 60S ribosomal protein L18-B + + + 60S ribosomal protein L18-B + + + + RPL18B + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MGIDHTSKQHKRSGHRTAPKSDNVYLKLLVKLYTFLARRTDAPFNKVVLKALFLSKINRPPVSVSRIARALKQEGAANKTVVVVGTVTDDARIFEFPKTTVAALRFTAGARAKIVKAGGECITLDQLAVRAPKGQNTLILRGPRNSREAVRHFGMGPHKGKAPRILSTGRKFERARGRRRSKGFKV + + + P0CX82 + 60S ribosomal protein L19-A + + + 60S ribosomal protein L19-A + + + + RPL19A + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MANLRTQKRLAASVVGVGKRKVWLDPNETSEIAQANSRNAIRKLVKNGTIVKKAVTVHSKSRTRAHAQSKREGRHSGYGKRKGTREARLPSQVVWIRRLRVLRRLLAKYRDAGKIDKHLYHVLYKESKGNAFKHKRALVEHIIQAKADAQREKALNEEAEARRLKNRAARDRRAQRVAEKRDALLKEDA + + + P40212 + 60S ribosomal protein L13-B + + + 60S ribosomal protein L13-B + + + + RPL13B + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + + + + + + MAISKNLPILKNHFRKHWQERVKVHFDQAGKKVSRRNARAARAAKIAPRPLDLLRPVVRAPTVKYNRKVRAGRGFTLAEVKAAGLTAAYARTIGIAVDHRRQNRNQEIFDANVQRLKEYQSKIIVFPRDGKAPEAEQVLSAAATFPIAQPATDVEARAVQDNGESAFRTLRLARSEKKFRGIREKRAREKAEAEAEKKK + + + Q12690 + 60S ribosomal protein L13-A + + + 60S ribosomal protein L13-A + + + + RPL13A + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + + + + + + MAISKNLPILKNHFRKHWQERVKVHFDQAGKKVSRRNARATRAAKIAPRPLDLLRPVVRAPTVKYNRKVRAGRGFTLAEVKAAGLTAAYARTIGIAVDHRRQNRNQEIFDANVQRLKEYQSKIIVFPRNGKAPEAEQVLSAAATFPIAQPATDVEARAVQDNGESAFRTLRLARSEKKFRGIREKRAREKAEAEAEKKK + + + P26784 + 60S ribosomal protein L16-A + + + 60S ribosomal protein L16-A + + + + RPL16A + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSVEPVVVIDGKGHLVGRLASVVAKQLLNGQKIVVVRAEELNISGEFFRNKLKYHDFLRKATAFNKTRGPFHFRAPSRIFYKALRGMVSHKTARGKAALERLKVFEGIPPPYDKKKRVVVPQALRVLRLKPGRKYTTLGKLSTSVGWKYEDVVAKLEAKRKVSSAEYYAKKRAFTKKVASANATAAESDVAKQLAALGY + + + P0CX83 + 60S ribosomal protein L19-B + + + 60S ribosomal protein L19-B + + + + RPL19B + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MANLRTQKRLAASVVGVGKRKVWLDPNETSEIAQANSRNAIRKLVKNGTIVKKAVTVHSKSRTRAHAQSKREGRHSGYGKRKGTREARLPSQVVWIRRLRVLRRLLAKYRDAGKIDKHLYHVLYKESKGNAFKHKRALVEHIIQAKADAQREKALNEEAEARRLKNRAARDRRAQRVAEKRDALLKEDA + + + Q02753 + 60S ribosomal protein L21-A + + + 60S ribosomal protein L21-A + + + + RPL21A + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MGKSHGYRSRTRYMFQRDFRKHGAVHLSTYLKVYKVGDIVDIKANGSIQKGMPHKFYQGKTGVVYNVTKSSVGVIINKMVGNRYLEKRLNLRVEHIKHSKCRQEFLERVKANAAKRAEAKAQGVAVQLKRQPAQPRESRIVSTEGNVPQTLAPVPYETFI + + + P26785 + 60S ribosomal protein L16-B + + + 60S ribosomal protein L16-B + + + + RPL16B + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSQPVVVIDAKDHLLGRLASTIAKQVLNGQKIVVVRAEALNISGEFFRNKLKYHDFLRKATAFNKTRGPFHFRAPSRILYKAIRGMVSHKTARGKAALERLKIFEGIPPPYDKKKRVVVPQALRVLRLKPGRKYTTLGKLSTSVGWKYEDVVAKLEDKRKVRSAEYYAKKRAFTKKVSSASAAASESDVAKQLASFGY + + + P0CX49 + 60S ribosomal protein L18-A + + + 60S ribosomal protein L18-A + + + + RPL18A + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MGIDHTSKQHKRSGHRTAPKSDNVYLKLLVKLYTFLARRTDAPFNKVVLKALFLSKINRPPVSVSRIARALKQEGAANKTVVVVGTVTDDARIFEFPKTTVAALRFTAGARAKIVKAGGECITLDQLAVRAPKGQNTLILRGPRNSREAVRHFGMGPHKGKAPRILSTGRKFERARGRRRSKGFKV + + + Q08961 + Ribosomal lysine N-methyltransferase 1 + + + Ribosomal lysine N-methyltransferase 1 + + + + RKM1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSSDALKALLQWGASFGVIVPEELKFLYTDLKGIICVCEKDIDNPSIKIPPEIVISRNLPMKFFGLSESTKNINGWLKLFFAKIKFDRDNDTIVDNVRVNDKFKPYLDALPSRLNSPLVWNPSELKRLSSTNIGNSIHEKFEGIFKEWFELVSSSDMFDLERVADDVQTFHNLDELTYEALYEKILKITELQRPTIWYSFPAFLWSHLIFISRAFPEYVLNRNCPDNSIVLLPIVDLLNHDYRSKVKWYPENGWFCYEKIGTASQSRELSNNYGGKGNEELLSGYGFVLEDNIFDSVALKVKLPLDVVSTILETEPSLKLPLLSDYTTYAFENKDCVQQEKKATRSATDYINGVTYFINIQNEQCLEPLLDLFTYLSKAEEEDLHDLRARLQGIQMLRNALQSKLNSITGPPATDDSYAIDPYRVYCADVYTKGQKQILKEALTRLKKLEKTMLSENKHQLLTMSKILKNDPAFAETELPSLFSNEDGEEVIFESTYDLLILWILLKTKKNSYPTKYEWVGQQYTNFKQTAYISDDAKAFHTAYFEKQDDVDLAEVDHAIQFVVDNSFTRTSSTTEETILVRK + + + P26321 + 60S ribosomal protein L5 + + + 60S ribosomal protein L5 + + + + RPL5 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MAFQKDAKSSAYSSRFQTPFRRRREGKTDYYQRKRLVTQHKAKYNTPKYRLVVRFTNKDIICQIISSTITGDVVLAAAYSHELPRYGITHGLTNWAAAYATGLLIARRTLQKLGLDETYKGVEEVEGEYELTEAVEDGPRPFKVFLDIGLQRTTTGARVFGALKGASDGGLYVPHSENRFPGWDFETEEIDPELLRSYIFGGHVSQYMEELADDDEERFSELFKGYLADDIDADSLEDIYTSAHEAIRADPAFKPTEKKFTKEQYAAESKKYRQTKLSKEERAARVAAKIAALAGQQ + + + P0CX24 + 60S ribosomal protein L20-B + + + 60S ribosomal protein L20-B + + + + RPL20B + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MAHFKEYQVIGRRLPTESVPEPKLFRMRIFASNEVIAKSRYWYFLQKLHKVKKASGEIVSINQINEAHPTKVKNFGVWVRYDSRSGTHNMYKEIRDVSRVAAVETLYQDMAARHRARFRSIHILKVAEIEKTADVKRQYVKQFLTKDLKFPLPHRVQKSTKTFSYKRPSTFY + + + P0CX46 + 60S ribosomal protein L2-B + + + 60S ribosomal protein L2-B + + + + RPL2B + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + MGRVIRNQRKGAGSIFTSHTRLRQGAAKLRTLDYAERHGYIRGIVKQIVHDSGRGAPLAKVVFRDPYKYRLREEIFIANEGVHTGQFIYAGKKASLNVGNVLPLGSVPEGTIVSNVEEKPGDRGALARASGNYVIIIGHNPDENKTRVRLPSGAKKVISSDARGVIGVIAGGGRVDKPLLKAGRAFHKYRLKRNSWPKTRGVAMNPVDHPHGGGNHQHIGKASTISRGAVSGQKAGLIAARRTGLLRGSQKTQD + + + Q12672 + 60S ribosomal protein L21-B + + + 60S ribosomal protein L21-B + + + + RPL21B + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MGKSHGYRSRTRYMFQRDFRKHGAVHMSTYLKIYKVGDIVDIKANGSIQKGMPHKFYQGKTGVVYNVTKSSVGVIINKMVGNRYLEKRLNLRVEHIKHSKCRQEFLERVKANAAKRAEAKAQGVAVQLKRQPAQPRESRIVSTEGNVPQTLAPVPYETFI + + + P41056 + 60S ribosomal protein L33-B + + + 60S ribosomal protein L33-B + + + + RPL33B + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MAESHRLYVKGKHLSYQRSKRVNNPNVSLIKIEGVATPQEAQFYLGKRIAYVYRASKEVRGSKIRVMWGKVTRTHGNSGVVRATFRNNLPAKTFGASVRIFLYPSNI + + + P0CX23 + 60S ribosomal protein L20-A + + + 60S ribosomal protein L20-A + + + + RPL20A + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MAHFKEYQVIGRRLPTESVPEPKLFRMRIFASNEVIAKSRYWYFLQKLHKVKKASGEIVSINQINEAHPTKVKNFGVWVRYDSRSGTHNMYKEIRDVSRVAAVETLYQDMAARHRARFRSIHILKVAEIEKTADVKRQYVKQFLTKDLKFPLPHRVQKSTKTFSYKRPSTFY + + + P0CX45 + 60S ribosomal protein L2-A + + + 60S ribosomal protein L2-A + + + + RPL2A + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + MGRVIRNQRKGAGSIFTSHTRLRQGAAKLRTLDYAERHGYIRGIVKQIVHDSGRGAPLAKVVFRDPYKYRLREEIFIANEGVHTGQFIYAGKKASLNVGNVLPLGSVPEGTIVSNVEEKPGDRGALARASGNYVIIIGHNPDENKTRVRLPSGAKKVISSDARGVIGVIAGGGRVDKPLLKAGRAFHKYRLKRNSWPKTRGVAMNPVDHPHGGGNHQHIGKASTISRGAVSGQKAGLIAARRTGLLRGSQKTQD + + + P05744 + 60S ribosomal protein L33-A + + + 60S ribosomal protein L33-A + + + + RPL33A + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MAESHRLYVKGKHLSYQRSKRVNNPNVSLIKIEGVATPQDAQFYLGKRIAYVYRASKEVRGSKIRVMWGKVTRTHGNSGVVRATFRNNLPAKTFGASVRIFLYPSNI + + + P05739 + 60S ribosomal protein L6-B + + + 60S ribosomal protein L6-B + + + + RPL6B + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MTAQQAPKWYPSEDVAAPKKTRKAVRPQKLRASLVPGTVLILLAGRFRGKRVVYLKHLEDNTLLVTGPFKVNGVPLRRVNARYVIATSTKVSVEGVNVEKFNVEYFAKEKLTKKEKKEANLFPEQQTKEIKTERVEDQKVVDKALLAEIKKTPLLKQYLSASFSLKNGDKPHLLKF + + + P48589 + 40S ribosomal protein S12 + + + 40S ribosomal protein S12 + + + + RPS12 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSDVEEVVEVQEETVVEQTAEVTIEDALKVVLRTALVHDGLARGLRESTKALTRGEALLVVLVSSVTEANIIKLVEGLANDPENKVPLIKVADAKQLGEWAGLGKIDREGNARKVVGASVVVVKNWGAETDELSMIMEHFSQQ + + + P14127 + 40S ribosomal protein S17-B + + + 40S ribosomal protein S17-B + + + + RPS17B + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MGRVRTKTVKRASKALIERYYPKLTLDFQTNKRLCDEIATIQSKRLRNKIAGYTTHLMKRIQKGPVRGISFKLQEEERERKDQYVPEVSALDLSRSNGVLNVDNQTSDLVKSLGLKLPLSVINVSAQRDRRYRKRN + + + P05755 + 40S ribosomal protein S9-B + + + 40S ribosomal protein S9-B + + + + RPS9B + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MPRAPRTYSKTYSTPKRPYESSRLDAELKLAGEFGLKNKREIYRISFQLSKIRRAARDLLTRDEKDPKRLFEGNALIRRLVRVGVLSEDKKKLDYVLALKVEDFLERRLQTQVYKLGLAKSVHHARVLITQRHIAVGKQIVNIPSFMVRLDSEKHIDFAPTSPFGGARPGRVARRNAARKAEASGEAAEEAEDEE + + + P40075 + Vesicle-associated membrane protein-associated protein SCS2 + + + Vesicle-associated membrane protein-associated protein SCS2 + + + + SCS2 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSAVEISPDVLVYKSPLTEQSTEYASISNNSDQTIAFKVKTTAPKFYCVRPNAAVVAPGETIQVQVIFLGLTEEPAADFKCRDKFLVITLPSPYDLNGKAVADVWSDLEAEFKQQAISKKIKVKYLISPDVHPAQNQNIQENKETVEPVVQDSEPKEVPAVVNEKEVPAEPETQPPVQVKKEEVPPVVQKTVPHENEKQTSNSTPAPQNQIKEAATVPAENESSSMGIFILVALLILVLGWFYR + + + Q12118 + Small glutamine-rich tetratricopeptide repeat-containing protein 2 + + + Small glutamine-rich tetratricopeptide repeat-containing protein 2 + + + + SGT2 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSASKEEIAALIVNYFSSIVEKKEISEDGADSLNVAMDCISEAFGFEREAVSGILGKSEFKGQHLADILNSASRVPESNKKDDAENVEINIPEDDAETKAKAEDLKMQGNKAMANKDYELAINKYTEAIKVLPTNAIYYANRAAAHSSLKEYDQAVKDAESAISIDPSYFRGYSRLGFAKYAQGKPEEALEAYKKVLDIEGDNATEAMKRDYESAKKKVEQSLNLEKTVPEQSRDADVDASQGASAGGLPDLGSLLGGGLGGLMNNPQLMQAAQKMMSNPGAMQNIQKMMQDPSIRQMAEGFASGGGTPNLSDLMNNPALRNMAGNLFGGAGAQSTDETPDNENKQ + + + P25582 + 27S pre-rRNA (guanosine(2922)-2'-O)-methyltransferase + + + 27S pre-rRNA (guanosine(2922)-2'-O)-methyltransferase + + + + SPB1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + + + + + + + + + + + MGKTQKKNSKGRLDRYYYLAKEKGYRARSSFKIIQINEKYGHFLEKSKVVIDLCAAPGSWCQVASKLCPVNSLIIGVDIVPMKPMPNVITFQSDITTEDCRSKLRGYMKTWKADTVLHDGAPNVGLGWVQDAFTQSQLTLQALKLAVENLVVNGTFVTKIFRSKDYNKLIWVFQQLFEKVEATKPPASRNVSAEIFVVCKGFKAPKRLDPRLLDPKEVFEELPDGQQNMESKIYNPEKKVRKRQGYEEGDNLLYHETSILDFVRTEDPISMLGEMNKFTIDENDHEWKILKKLKQTTDEFRSCIEDLKVLGKKDFKMILRWRKIAREILGIEVKDDAKTEIEVVPLTEEEQIEKDLQGLQEKQRLNVKRERRRKNEMKQKELQRMQMNMITPTDIGIEAASLGKESLFNLKTAEKTGILNDLAKGKKRMIFTDDELAKDNDIYIDENIMIKDKDSAADADDLESELNAMYSDYKTRRSERDAKFRAKQARGGDNEEEWTGFNEGSLEKKEEEGKDYIEDNDDEGVEGDSDDDEAITNLISKLKGQEGDHKLSSKARMIFNDPIFNNVEPDLPVNTVNDGIMSSESVGDISKLNKKRKHEEMHQKQDEADSSDESSSDDSDFEIVANDNASEEFDSDYDSEEEKNQTKKEKHSRDIDIATVEAMTLAHQLALGQKNKHDLVDEGFNRYTFRDTENLPDWFLEDEKEHSKINKPITKEAAMAIKEKIKAMNARPIKKVAEAKARKRMRAVARLEKIKKKAGLINDDSDKTEKDKAEEISRLMRKVTKKPKTKPKVTLVVASGRNKGLAGRPKGVKGKYKMVDGVMKNEQRALRRIAKKHHKKK + + + P32558 + FACT complex subunit SPT16 + + + FACT complex subunit SPT16 + + + + SPT16 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MEELNIDFDVFKKRIELLYSKYNEFEGSPNSLLFVLGSSNAENPYQKTTILHNWLLSYEFPATLIALVPGKVIIITSSAKAKHLQKAIDLFKDPESKITLELWQRNNKEPELNKKLFDDVIALINSAGKTVGIPEKDSYQGKFMTEWNPVWEAAVKENEFNVIDISLGLSKVWEVKDVNEQAFLSVSSKGSDKFMDLLSNEMVRAVDEELKITNAKLSDKIENKIDDVKFLKQLSPDLSALCPPNYKFNFDLLDWTYSPIIQSGKKFDLRVSARSTNDQLYGNGCILASCGIRYNNYCSNITRTFLIDPSEEMANNYDFLLTLQKEIVTNILKPGRTPKEVYESVIEYIEKTKPELVPNFTKNIGSLIGLEFRDSNFILNVKNDYRKIQRGDCFNISFGFNNLKDSQSANNYALQLADTVQIPLDETEPPRFLTNYTKAKSQISFYFNNEEEDNNKKKSSPATKVPSKPDRNSKILRTKLRGEARGGAEDAQKEQIRKENQKKLHEKLEKNGLLRFSAADANGPDSEPRQYFKKYESYVRDSQLPTNIRDLRIHVDWKSQTIILPIYGRPVPFHINSYKNGSKNEEGEYTYLRLNFNSPGSSGGISKKVEELPYEESADNQFVRSITLRSKDGDRMSETFKQIADLKKEATKREQERKALADVVQQDKLIENKTGRTKRLDQIFVRPNPDTKRVPSTVFIHENGIRFQSPLRTDSRIDILFSNIKNLIFQSCKGELIVVIHIHLKNPILMGKKKIQDVQFYREASDMSVDETGGGRRGQSRFRRYGDEDELEQEQEERRKRAALDKEFKYFADAIAEASNGLLTVENTFRDLGFQGVPNRSAVFCMPTTDCLVQLIEPPFLVINLEEVEICILERVQFGLKNFDMVFVYKDFNKPVTHINTVPIESLDFLKQWLTDMDIPYTVSTINLNWATIMKSLQDDPYQFFLDGGWNFLATGSDDEASDESEEEVSEYEASEDDVSDESAFSEDEEGSEVDDDISGDESEDYTGDESEEGEDWDELEKKAARADRGANFRD + + + P39015 + Suppressor protein STM1 + + + Suppressor protein STM1 + + + + STM1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + MSNPFDLLGNDVEDADVVVLPPKEIVKSNTSSKKADVPPPSADPSKARKNRPRPSGNEGAIRDKTAGRRNNRSKDVTDSATTKKSNTRRATDRHSRTGKTDTKKKVNQGWGDDKKELSAEKEAQADAAAEIAEDAAEAEDAGKPKTAQLSLQDYLNQQANNQFNKVPEAKKVELDAERIETAEKEAYVPATKVKNVKSKQLKTKEYLEFDATFVESNTRKNFGDRNNNSRNNFNNRRGGRGARKGNNTANATNSANTVQKNRNIDVSNLPSLA + + + P53312 + Succinate--CoA ligase [ADP-forming] subunit beta, mitochondrial + + + Succinate--CoA ligase [ADP-forming] subunit beta, mitochondrial + + + + LSC2 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MYSRKSLSLISKCGQLSRLNAQAALQARRHLSIHEYRSAQLLREYGIGTPEGFPAFTPEEAFEAAKKLNTNKLVIKAQALTGGRGKGHFDTGYKSGVHMIESPQQAEDVAKEMLNHNLITKQTGIAGKPVSAVYIVKRVDTKHEAYLSILMDRQTKKPMIIASSQGGMNIEEVAERTPDAIKKFSIETSKGLSPQMAKDVAKSLGFSPDAQDEAAKAVSNLYKIFMERDATQVEINPLSEIEHDPTHKIMCTDAKFGFDDNASFRQEKIYSWRDLSQEDPDEVKAKKYDLNFVKLKGNIGCLVNGAGLAMATMDVIKLNGGDPANFLDCGGGATPETIKQGFELILSNKNVDAIFVNIFGGIVRCDYVALGLVEAARELEVRVPIVARLQGTKVEEGRDIINKSGVKIYSFDELDPAAKKVVELTQN + + + P15705 + Heat shock protein STI1 + + + Heat shock protein STI1 + + + + STI1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + MSLTADEYKQQGNAAFTAKDYDKAIELFTKAIEVSETPNHVLYSNRSACYTSLKKFSDALNDANECVKINPSWSKGYNRLGAAHLGLGDLDEAESNYKKALELDASNKAAKEGLDQVHRTQQARQAQPDLGLTQLFADPNLIENLKKNPKTSEMMKDPQLVAKLIGYKQNPQAIGQDLFTDPRLMTIMATLMGVDLNMDDINQSNSMPKEPETSKSTEQKKDAEPQSDSTTSKENSSKAPQKEESKESEPMEVDEDDSKIEADKEKAEGNKFYKARQFDEAIEHYNKAWELHKDITYLNNRAAAEYEKGEYETAISTLNDAVEQGREMRADYKVISKSFARIGNAYHKLGDLKKTIEYYQKSLTEHRTADILTKLRNAEKELKKAEAEAYVNPEKAEEARLEGKEYFTKSDWPNAVKAYTEMIKRAPEDARGYSNRAAALAKLMSFPEAIADCNKAIEKDPNFVRAYIRKATAQIAVKEYASALETLDAARTKDAEVNNGSSAREIDQLYYKASQQRFQPGTSNETPEETYQRAMKDPEVAAIMQDPVMQSILQQAQQNPAALQEHMKNPEVFKKIQTLIAAGIIRTGR + + + P38825 + Protein TOM71 + + + Protein TOM71 + + + + TOM71 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + + + + + + + + + + + MAENSLLRFITKNKVAILATVSAGTAAVGAYVYYQQIKQQQQQQLKGTKDNRRQSEAFAGQNEDEADLKDDGSVVSGSNKRKKKKNKRKRNNKAKSGEGFDYPSLPNGEPDIAQLKGLSPSQRQAYAVQLKNRGNHFFTAKNFNEAIKYYQYAIELDPNEPVFYSNISACYISTGDLEKVIEFTTKALEIKPDHSKALLRRASANESLGNFTDAMFDLSVLSLNGDFDGASIEPMLERNLNKQAMKVLNENLSKDEGRGSQVLPSNTSLASFFGIFDSHLEVSSVNTSSNYDTAYALLSDALQRLYSATDEGYLVANDLLTKSTDMYHSLLSANTVDDPLRENAALALCYTGIFHFLKNNLLDAQVLLQESINLHPTPNSYIFLALTLADKENSQEFFKFFQKAVDLNPEYPPTYYHRGQMYFILQDYKNAKEDFQKAQSLNPENVYPYIQLACLLYKQGKFTESEAFFNETKLKFPTLPEVPTFFAEILTDRGDFDTAIKQYDIAKRLEEVQEKIHVGIGPLIGKATILARQSSQDPTQLDEEKFNAAIKLLTKACELDPRSEQAKIGLAQLKLQMEKIDEAIELFEDSAILARTMDEKLQATTFAEAAKIQKRLRADPIISAKMELTLARYRAKGML + + + P38349 + UBX domain-containing protein 7 + + + UBX domain-containing protein 7 + + + + UBX7 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MLEALFRDSVEEAINDSIKEGVVLAVYNTARDDQWLKSWFKGDDVSLDTLAEHSIWLRLVKDTEQFQLFEQVFPNVVVPSIYLIRAGKIELIIQGEDDRHWEKLLACIGIKDKKAGESSSRETNPGLAREEKSSRDVHRKNARERIAETTLEIQRREQLKQRKLAEEERERIIRLVRADRAERKALDETHHRTLDDDKPLDVHDYIKDAQKLHSSKCVLQIRMTDGKTLKHEFNSSETLNDVRKWVDVNRTDGDCPYSFHRGIPRVTFKDSDELKTLETLELTPRSALLLKPLETQNSGLSVTGMEGPSLLGRLYKGFSTWWHNDKDPEVTSQREETSKPNRHEVRSSTPLSGAASSSCFQYNNVREPVQSSAHASPMLTPSGTRYPSETNLTTSRSVSPNVFQFVNNDHQEDPEDPTTFNGNNVHLEKKKDEDKK + + + P17255 + V-type proton ATPase catalytic subunit A + + + V-type proton ATPase catalytic subunit A + + + + VMA1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MAGAIENARKEIKRISLEDHAESEYGAIYSVSGPVVIAENMIGCAMYELVKVGHDNLVGEVIRIDGDKATIQVYEETAGLTVGDPVLRTGKPLSVELGPGLMETIYDGIQRPLKAIKEESQSIYIPRGIDTPALDRTIKWQFTPGKFQVGDHISGGDIYGSVFENSLISSHKILLPPRSRGTITWIAPAGEYTLDEKILEVEFDGKKSDFTLYHTWPVRVPRPVTEKLSADYPLLTGQRVLDALFPCVQGGTTCIPGAFGCGKTVISQSLSKYSNSDAIIYVGCFAKGTNVLMADGSIECIENIEVGNKVMGKDGRPREVIKLPRGRETMYSVVQKSQHRAHKSDSSREVPELLKFTCNATHELVVRTPRSVRRLSRTIKGVEYFEVITFEMGQKKAPDGRIVELVKEVSKSYPISEGPERANELVESYRKASNKAYFEWTIEARDLSLLGSHVRKATYQTYAPILYENDHFFDYMQKSKFHLTIEGPKVLAYLLGLWIGDGLSDRATFSVDSRDTSLMERVTEYAEKLNLCAEYKDRKEPQVAKTVNLYSKVVRGNGIRNNLNTENPLWDAIVGLGFLKDGVKNIPSFLSTDNIGTRETFLAGLIDSDGYVTDEHGIKATIKTIHTSVRDGLVSLARSLGLVVSVNAEPAKVDMNGTKHKISYAIYMSGGDVLLNVLSKCAGSKKFRPAPAAAFARECRGFYFELQELKEDDYYGITLSDDSDHQFLLANQVVVHNCGERGNEMAEVLMEFPELYTEMSGTKEPIMKRTTLVANTSNMPVAAREASIYTGITLAEYFRDQGKNVSMIADSSSRWAEALREISGRLGEMPADQGFPAYLGAKLASFYERAGKAVALGSPDRTGSVSIVAAVSPAGGDFSDPVTTATLGITQVFWGLDKKLAQRKHFPSINTSVSYSKYTNVLNKFYDSNYPEFPVLRDRMKEILSNAEELEQVVQLVGKSALSDSDKITLDVATLIKEDFLQQNGYSTYDAFCPIWKTFDMMRAFISYHDEAQKAVANGANWSKLADSTGDVKHAVSSSKFFEPSRGEKEVHGEFEKLLSTMQERFAESTD + + + Q12141 + Transposon Ty1-GR1 Gag-Pol polyprotein + + + Transposon Ty1-GR1 Gag-Pol polyprotein + + + + TY1B-GR1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQTAQSHSPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIQQCGMEEVRGWSCVFKNSQVTICLFVDDMVLFSKNLNSNKRIIDKLKMQYDTKIINLGESDEEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQQELELEEDDYKMKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSKQVLDMTYELIQFIWNTRDKQLIWHKSKPVKPTNKLVVISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELDKKPITKGLLTDSKSTISIIISNNEEKFRNRFFGTKAMRLRDEVSGNHLHVCYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + + P0CX74 + Transposon Ty1-JR1 Gag polyprotein + + + Transposon Ty1-JR1 Gag polyprotein + + + + TY1A-JR1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + + P0CX70 + Transposon Ty1-DR6 Gag polyprotein + + + Transposon Ty1-DR6 Gag polyprotein + + + + TY1A-DR6 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + + P0CX71 + Transposon Ty1-ER1 Gag polyprotein + + + Transposon Ty1-ER1 Gag polyprotein + + + + TY1A-ER1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + + Q12085 + Transposon Ty1-GR1 Gag polyprotein + + + Transposon Ty1-GR1 Gag polyprotein + + + + TY1A-GR1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQTAQSHSPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + + P0CF21 + Putative truncated L-serine dehydratase YIL168W + + + Putative truncated L-serine dehydratase YIL168W + + + + YIL168W + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MEMTYYEKTPLIRQFLNNGKTNSWFYVKHEMLQPGGSFKSRGIGHLIRKSNEEALSEGSGKLAVFSSSGGNAGLAAATACRSMALNCSVVVPKTTKPRMVKKIQSAGAKVIIHGDHWGEADEYLRHE + + + P0CX72 + Transposon Ty1-LR2 Gag polyprotein + + + Transposon Ty1-LR2 Gag polyprotein + + + + TY1A-LR2 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + + P0C2I6 + Transposon Ty1-LR3 Gag-Pol polyprotein + + + Transposon Ty1-LR3 Gag-Pol polyprotein + + + + TY1B-LR3 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSASQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKPISEINLRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSNNETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDPPPEPPTELSDSFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAAKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMNTWDTDKYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDTGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSHYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIFLLNGKVIGGKSTKASLTCTSTTEAEIHAVSEAIPLLNNLSHLVQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + + P0C2I8 + Transposon Ty1-LR4 Gag polyprotein + + + Transposon Ty1-LR4 Gag polyprotein + + + + TY1A-LR4 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHPHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + + P36072 + Putative uncharacterized protein YKL118W + + + Putative uncharacterized protein YKL118W + + + + YKL118W + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSSSIPSFDFALFLNFRRNSVILSFSLISNIRVLLCDANRQLSYLTFSSFLSAFSCEICFIFASSFLILNIHTSVMSTLSQLNTQDFCKTEYFVNNIIVRIQS + + + P0C2I5 + Transposon Ty1-LR2 Gag-Pol polyprotein + + + Transposon Ty1-LR2 Gag-Pol polyprotein + + + + TY1B-LR2 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAPTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPNSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + + P0CX73 + Transposon Ty1-PL Gag polyprotein + + + Transposon Ty1-PL Gag polyprotein + + + + TY1A-PL + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + + Q12273 + Transposon Ty1-OL Gag-Pol polyprotein + + + Transposon Ty1-OL Gag-Pol polyprotein + + + + TY1B-OL + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSNYPQISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIINRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYQSFIASNEIQQSDDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSHQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + + Q03612 + Transposon Ty1-ER1 Gag-Pol polyprotein + + + Transposon Ty1-ER1 Gag-Pol polyprotein + + + + TY1B-ER1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYQSFIASNEIQQSDDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSHQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + + P0C2J1 + Transposon Ty1-PR3 Gag-Pol polyprotein + + + Transposon Ty1-PR3 Gag-Pol polyprotein + + + + TY1B-PR3 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSNYSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSASQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKPISEINLRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSNNETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDPPPEPPTELSDSFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDRYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDTGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSHYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSHLVQELNKKPITKGLLTDSKSTISIIISNNEEKFRNRFFGTKAMRLRDEVSGNHLHVCYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + + Q07589 + Uncharacterized protein YDL144C + + + Uncharacterized protein YDL144C + + + + YDL144C + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSRILVIGAGGVGVITALSLWLKKESDVSLVVRSDYDRVLKHGYTIESCDYGRLEGWRPHHIYSSVEDAASAADNQGYNYIVVTTKNIIDGPVNSRVSNIIRPVLEKNKELHGPQLTTHILLVQNGIDIEKEIWAEFPREQYRYTVLSGIQLIGSTKIGSGHISQVGQDHLSCGAFDPQDAAAIQAANDFVRMYSNEGQNFVEFDPRVRYSRWKKLLYNAAINTSTALVGLDVPRCLEFGVNKKSTEIEVFHPAMREIIAIAASEGIIIEEEFITMFTEITRKKVFKPSMCVDCEKGQLMELEVILGNPIRIAKRNGVATPTLSILYNLLVLVQAKLKERKGLLKFDEKTATLVDE + + + Q6Q5H1 + Transposon Ty1-PR3 Gag polyprotein + + + Transposon Ty1-PR3 Gag polyprotein + + + + TY1A-PR3 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSNYSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + + P0C2I3 + Transposon Ty1-DR6 Gag-Pol polyprotein + + + Transposon Ty1-DR6 Gag-Pol polyprotein + + + + TY1B-DR6 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPNSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNYLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIQQCGMEEVRGWSCVFKNSQVTICLFVDDMVLFSKNLNSNKRIIEKLKMQYDTKIINLGESDEEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTKPDNKLVAISDASYGNQPYYKSQIGNIFLLNGKVIGGKSTKASLTCTSTTEAEIHAVSEAIPLLNNLSHLVQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + + P47098 + Transposon Ty1-JR1 Gag-Pol polyprotein + + + Transposon Ty1-JR1 Gag-Pol polyprotein + + + + TY1B-JR1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYQSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSHQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDTGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSHYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIFLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + + P0CX76 + Transposon Ty1-ML2 Gag polyprotein + + + Transposon Ty1-ML2 Gag polyprotein + + + + TY1A-ML2 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + + Q03434 + Transposon Ty1-ML2 Gag-Pol polyprotein + + + Transposon Ty1-ML2 Gag-Pol polyprotein + + + + TY1B-ML2 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDRSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYQSFIASNEIQQSDDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSHQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + + P0C2I7 + Transposon Ty1-LR4 Gag-Pol polyprotein + + + Transposon Ty1-LR4 Gag-Pol polyprotein + + + + TY1B-LR4 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHPHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPNSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIQQCGMEEVRGWSCVFKNSQVTICLFVDDMVLFSKNLNSNKRIIEKLKMQYDTKIINLGESDEEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTKPDNKLVAISDASYGNQPYYKSQIGNIFLLNGKVIGGKSTKASLTCTSTTEAEIHAVSEAIPLLNNLSHLVQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + + P38079 + Protein YRO2 + + + Protein YRO2 + + + + YRO2 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSDYVELLKRGGNEAIKINPPTGADFHITSRGSDWLFTVFCVNLLFGVILVPLMFRKPVKDRFVYYTAIAPNLFMSIAYFTMASNLGWIPVRAKYNHVQTSTQKEHPGYRQIFYARYVGWFLAFPWPIIQMSLLGGTPLWQIAFNVGMTEIFTVCWLIAACVHSTYKWGYYTIGIGAAIVVCISLMTTTFNLVKARGKDVSNVFITFMSVIMFLWLIAYPTCFGITDGGNVLQPDSATIFYGIIDLLILSILPVLFMPLANYLGIERLGLIFDEEPAEHVGPVAEKKMPSPASFKSSDSDSSIKEKLKLKKKHKKDKKKAKKAKKAKKAKKAQEEEEDVATDSE + + + Q92392 + Transposon Ty1-OL Gag polyprotein + + + Transposon Ty1-OL Gag polyprotein + + + + TY1A-OL + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSNYPQISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIINRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + + Q12414 + Transposon Ty1-PL Gag-Pol polyprotein + + + Transposon Ty1-PL Gag-Pol polyprotein + + + + TY1B-PL + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPNSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + + P31111 + Synaptonemal complex protein ZIP1 + + + Synaptonemal complex protein ZIP1 + + + + ZIP1 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MSNFFRDSSMGFKPRPNIFAKLRVRDVDSDSSANTVVENSSNCLDVGSSIEGDDTFKKPHKTSTEQELITSMSLSQRNHGYSDDMEIGSPKKTTSTDQYNRILKNDVAAIENDTDEDFEITEVREVSEGVAKETKESHGDPNDSETTLKDSKMHEYTMTNGKAPLHTSINNSSTSSNDVLLEAFTNTQRICSNLKQELQKQQQDNAKLKVRLQSYASNSDKINEKVGKYKSCLETLQERIATLTSHKNNQETKLKDLRQNHQLYQRRISGFKTSIENLNKTINDLGKNKKEADAELMKKGKEIEYLKRELDDCSGQLSEEKIKNSSLIQEMGKNREEMIKSIENFFSEDKAHHLLQFNKFEERVHDLFEKKLQKHFDVAKDTLNVGLRNTTVELSSNTETMLKQQYEDIKENLEQKMSSSKDEMAKTINELSVTQKGLIMGVQEELLTSSGNIQTALVSEMNNTRQELLDDASQTAKNYASLENLVKAYKAEIVQSNEYEERIKHLESERSTLSSQKNQIISSLGTKEAQYEDLVKKLEAKNIEISQISGKEQSLTEKNENLSNELKKVQDQLEKLNNLNITTKSNYENKISSQNEIVKALVSENDTLKQRIQQLVEIKENEQKDHTTKLEAFQKNNEQLQKLNVEVVQLKAHELELEEQNRHLKNCLEKKETGVEESLSDVKTLKQQVIVLKSEKQDITAEKLELQDNLESLEEVTKNLQQKVQSQKRELEQKIKELEEIKNHKRNEPSKKGTQNFTKPSDSPKKNATTSNLFPNNSAAIHSPMKKCPKVDHISKSRINSSKETSKFNDEFDLSSSSNDDLELTNPSPIQIKPVRGKIKKGSNCMKPPISSRKKLLLVEDEDQSLKISKKRRRK + + + P0CX75 + Transposon Ty1-LR3 Gag polyprotein + + + Transposon Ty1-LR3 Gag polyprotein + + + + TY1A-LR3 + + + Saccharomyces cerevisiae (strain ATCC 204508 / S288c) + + MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + \ No newline at end of file diff --git a/tools/metamorpheus/test-data/SmallYeast_uniprot.xml b/tools/metamorpheus/test-data/SmallYeast_uniprot.xml new file mode 100644 index 000000000..08314df58 --- /dev/null +++ b/tools/metamorpheus/test-data/SmallYeast_uniprot.xml @@ -0,0 +1,84141 @@ + + + +P38013 +D6VYA9 +AHP1_YEAST + + +Peroxiredoxin AHP1 +Prx +1.11.1.24 + + +Alkyl hydroperoxide reductase +AHPC1 + + +Cytoplasmic thiol peroxidase 3 +cTPx 3 + + +Thiol-specific antioxidant II +TSA II + + +Thioredoxin peroxidase type II +TPx type II + + +Thioredoxin-dependent peroxiredoxin AHP1 + + + +AHP1 +YLR109W +L2916 +L9354.5 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Sequence analysis of a 37.6 kbp cosmid clone from the right arm of Saccharomyces cerevisiae chromosome XII, carrying YAP3, HOG1, SNR6, tRNA-Arg3 and 23 new open reading frames, among which several homologies to proteins involved in cell division control and to mammalian growth factors and other animal proteins are found. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 90840 / EAY235 / FY23 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + + + + + + +PROTEIN SEQUENCE OF 2-8; 16-48; 80-102 AND 114-176 +CLEAVAGE OF INITIATOR METHIONINE +ACETYLATION AT SER-2 +IDENTIFICATION BY MASS SPECTROMETRY + + + +Attachment of the ubiquitin-related protein Urm1p to the antioxidant protein Ahp1p. + + + + + + + + +PROTEIN SEQUENCE OF 8-15; 33-41; 80-102 AND 125-176 +URMYLATION + + + +Purification and characterization of a second type thioredoxin peroxidase (type II TPx) from Saccharomyces cerevisiae. + + + + + + + + + + +PROTEIN SEQUENCE OF 16-41; 49-68; 82-96; 114-123 AND 142-150 +POST-TRANSLATIONAL MODIFICATION +DISULFIDE BONDS +CATALYTIC ACTIVITY +BIOPHYSICOCHEMICAL PROPERTIES + + + +In vivo characterization of a thioredoxin H target protein defines a new peroxiredoxin family. + + + + + + + + + + +PARTIAL PROTEIN SEQUENCE OF 33-37; 82-96; 126-139 AND 157-170 +FUNCTION +CATALYTIC ACTIVITY +BIOPHYSICOCHEMICAL PROPERTIES +SUBUNIT + + + +Protein identifications for a Saccharomyces cerevisiae protein database. + + + + + + + + + + + + + +PROTEIN SEQUENCE OF 82-99 + +ATCC 204508 / S288c + + + + +Involvement of thioredoxin peroxidase type II (Ahp1p) of Saccharomyces cerevisiae in Mn2+ homeostasis. + + + + + + + + + + +FUNCTION + + + +A new antioxidant with alkyl hydroperoxide defense properties in yeast. + + + + + + + + + + +FUNCTION +SUBUNIT + + + +Distinct physiological functions of thiol peroxidase isoenzymes in Saccharomyces cerevisiae. + + + + + + + + + +FUNCTION +INDUCTION +SUBCELLULAR LOCATION + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-59 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-28 AND SER-116 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Peroxiredoxin Ahp1 acts as a receptor for alkylhydroperoxides to induce disulfide bond formation in the Cad1 transcription factor. + + + + + + + + +FUNCTION + + + +Role of the ubiquitin-like protein Urm1 as a noncanonical lysine-directed protein modifier. + + + + + + + + + + + + + +URMYLATION AT LYS-32 +MUTAGENESIS OF LYS-32 + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-48 AND LYS-113 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Characterization of the yeast peroxiredoxin Ahp1 in its reduced active and overoxidized inactive forms using NMR. + + + + + + + + + + + + + + + +3D-STRUCTURE MODELING +STRUCTURE BY NMR + + + +Structural snapshots of yeast alkyl hydroperoxide reductase Ahp1 peroxiredoxin reveal a novel two-cysteine mechanism of electron transfer to eliminate reactive oxygen species. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.10 ANGSTROMS) IN COMPLEX WITH TRX2 +ACTIVE SITE +DISULFIDE BOND +SUBUNIT + + + +Crystal structure of Ahp1 from Saccharomyces cerevisiae in reduced form. + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.00 ANGSTROMS) + + + +Crystal structure of Ahp1 from Saccharomyces cerevisiae. Investigating the electron transfers. + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.20 ANGSTROMS) +DISULFIDE BONDS + + +Thiol-specific peroxidase that catalyzes the reduction of hydrogen peroxide and organic hydroperoxides to water and alcohols, respectively. Plays a role in cell protection against oxidative stress by detoxifying peroxides and as sensor of hydrogen peroxide-mediated signaling events. Preferentially eliminates organic peroxides rather than hydrogen peroxide (PubMed:10391912, PubMed:9988687, PubMed:10681558). Relays alkyl hydroperoxides as a signal to the transcription factor CAD1/YAP2 by inducing the formation of intramolecular disulfide bonds in CAD1, which causes its nuclear accumulation and activation (PubMed:20145245). Involved in cellular Mn(2+) homeostasis (PubMed:10635552). + + + +[thioredoxin]-dithiol + a hydroperoxide = [thioredoxin]-disulfide + an alcohol + H2O + + + + + + + + + + + + + +150 uM for H(2)O(2) +14 uM for H(2)O(2) +8 uM for cumene hydroperoxide +45 uM for tert-butyl hydroperoxide +76.9 uM for tert-butyl hydroperoxide +3 uM for TRX1 +2 uM for TRX2 +1.3 uM for TRX2 +20 umol/min/mg enzyme for H(2)O(2) +14 umol/min/mg enzyme for cumene hydroperoxide +17 umol/min/mg enzyme for tert-butyl hydroperoxide +17 umol/min/mg enzyme for TRX1 +16 umol/min/mg enzyme for TRX2 + + +Optimum pH is 6.5. + + + +Homodimer; disulfide-linked, upon oxidation. + + + +P38013 + + +P34230 + + +false +2 + + + +Cytoplasm + + + +By H(2)O(2). + + +Conjugated to URM1, a ubiquitin-like protein. + + +The active site is a conserved redox-active cysteine residue, the peroxidatic cysteine (C(P)), which makes the nucleophilic attack on the peroxide substrate. The peroxide oxidizes the C(P)-SH to cysteine sulfenic acid (C(P)-SOH), which then reacts with another cysteine residue, the resolving cysteine (C(R)), to form a disulfide bridge. The disulfide is subsequently reduced by an appropriate electron donor to complete the catalytic cycle. In this typical 2-Cys Prx, C(R) is provided by the other dimeric subunit to form an intersubunit disulfide. The disulfide is subsequently reduced by thioredoxin. + + +Present with 16228 molecules/cell in log phase SD medium. + + +Belongs to the peroxiredoxin family. Prx5 subfamily. + + +Biochemical and mutational analysis assigned Cys-120 as the resolving cysteine (C(R)) (PubMed:9888818). However, crystal structures showed that Cys-120 is deeply buried within the protein and revealed formation of a disulfide bond between the peroxidatic cysteine Cys-62 and the therefore more likely C(R) Cys-31 (PubMed:22474296, Ref.21). + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +Antioxidant +Cytoplasm +Direct protein sequencing +Disulfide bond +Isopeptide bond +Oxidoreductase +Peroxidase +Phosphoprotein +Redox-active center +Reference proteome +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +C +S + + + + + +K +R + + + + + +C +S + + + + + +C +S + + + + + +I +T + + + + + +S +V + + + + + +I +E + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSDLVNKKFPAGDYKFQYIAISQSDADSESCKMPQTVEWSKLISENKKVIITGAPAAFSPTCTVSHIPGYINYLDELVKEKEVDQVIVVTVDNPFANQAWAKSLGVKDTTHIKFASDPGCAFTKSIGFELAVGDGVYWSGRWAMVVENGIVTYAAKETNPGTDVTVSSVESVLAHL + + +P46672 +D6VU41 +ARC1_YEAST + + +tRNA-aminoacylation cofactor ARC1 + + +Acyl-RNA-complex protein 1 + + +GU4 nucleic-binding protein 1 +G4p1 protein + + +P42 + + +tRNA-interacting factor ARC1 + + + +ARC1 +G4P1 +YGL105W +G3085 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +A novel yeast gene product, G4p1, with a specific affinity for quadruplex nucleic acids. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] +PROTEIN SEQUENCE OF 53-75 AND 102-123 + +ATCC 204508 / S288c + + + + +The yeast protein Arc1p binds to tRNA and functions as a cofactor for the methionyl- and glutamyl-tRNA synthetases. + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] +FUNCTION +TRNA-BINDING +INTERACTION WITH GUS1 AND MES1 +SUBCELLULAR LOCATION + +JU4.2XJR26.19B + + + + +The genes encoding the transcription factor yTAFII60, the G4p1 protein and a putative glucose transporter are contained in a 12.3 kb DNA fragment on the left arm of Saccharomyces cerevisiae chromosome VII. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome VII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +A conserved domain within Arc1p delivers tRNA to aminoacyl-tRNA synthetases. + + + + + + + + + +FUNCTION +TRNA BINDING +INTERACTION WITH GUS1 AND MES1 + + + +The intracellular location of two aminoacyl-tRNA synthetases depends on complex formation with Arc1p. + + + + + + + + + + +SUBUNIT +INTERACTION WITH GUS1 AND MES1 +SUBCELLULAR LOCATION + + + +Arc1p organizes the yeast aminoacyl-tRNA synthetase complex and stabilizes its interaction with the cognate tRNAs. + + + + + + + + + +FUNCTION +TRNA-BINDING +INTERACTION WITH GUS1 AND MES1 + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The tRNA aminoacylation co-factor Arc1p is excluded from the nucleus by an Xpo1p-dependent mechanism. + + + + + + + + +SUBCELLULAR LOCATION + + + +Arc1p is required for cytoplasmic confinement of synthetases and tRNA. + + + + + + + +FUNCTION +SUBCELLULAR LOCATION + + + +Structures of the interacting domains from yeast glutamyl-tRNA synthetase and tRNA-aminoacylation and nuclear-export cofactor Arc1p reveal a novel function for an old fold. + + + + + + + + +X-RAY CRYSTALLOGRAPHY (1.9 ANGSTROMS) OF 1-122 +INTERACTION WITH GUS1 + + + +Structural basis of yeast aminoacyl-tRNA synthetase complex formation revealed by crystal structures of two binary sub-complexes. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.2 ANGSTROMS) OF 1-122 IN COMPLEXES WITH GUS1 AND MES1 +MUTAGENESIS OF ALA-26 AND ARG-100 + + +Binds to tRNA and functions as a cofactor for the methionyl-tRNA synthetase (MetRS) and glutamyl-tRNA synthetase (GluRS). Forms a complex with MetRS and GluRS and increases their affinity for cognate tRNAs due to the presence of a tRNA binding domain in its middle and C-terminal part. Binds specifically G4 quadruplex nucleic acid structures (these are four-stranded right-handed helices, stabilized by guanine base quartets). Also required for cytoplasmic confinement of the synthetases and tRNA. + + +Component of a yeast aminoacyl-tRNA synthase (aaRS) complex formed by methionyl-tRNA synthase MES1, glutamyl-tRNA synthase GUS1 and the tRNA aminoacylation cofactor ARC1 in a stoichiometric complex. Interacts (via N-ter) with MES1 (via N-ter) and GUS1 (via N-ter). Can also form a stable binary complex with either MES1 or GUS1 that is functional in terms of aminoacylation. + + + +P46672 + + +P46655 + + +false +7 + + + +P46672 + + +P00958 + + +false +7 + + + +Cytoplasm + +Largely excluded from the nucleus. + + +Present with 57700 molecules/cell in log phase SD medium. + + +Belongs to the tRNA-aminoacylation cofactor ARC1 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +Reference proteome +RNA-binding +tRNA-binding + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +A +R + + + + + +R +A + + + + + +PAGGAADAAAKAD +LRVALLMLQQGS + + + + + + +KK +LL + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSDLVTKFESLIISKYPVSFTKEQSAQAAQWESVLKSGQIQPHLDQLNLVLRDNTFIVSTLYPTSTDVHVFEVALPLIKDLVASSKDVKSTYTTYRHILRWIDYMQNLLEVSSTDKLEINHDLDLPHEVIEKKKKAPAGGAADAAAKADEDVSKKAKKQDHPRGKPDEETLKKLREEAKAKKAAKKAANAKQQQEQQNKAPEKPKPSAIDFRVGFIQKAIKHPDADSLYVSTIDVGDEEGPRTVCSGLVKHFPLDAMQERYVVVVCNLKPVNMRGIKSTAMVLCGSNDDKVEFVEPPKDSKAGDKVFFEGFGDEAPMKQLNPKKKIWEHLQPHFTTNDGLEVIFKDEEEKDHPVRKLTNAKGESFKVASIANAQVR + + +Q01389 +D6VW89 +P32894 +BCK1_YEAST + + +Serine/threonine-protein kinase BCK1/SLK1/SSP31 +2.7.11.1 + + + +BCK1 +LAS3 +SLK1 +SSP31 +YJL095W +J0906 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +A synthetic lethal screen identifies SLK1, a novel protein kinase homolog implicated in yeast cell morphogenesis and cell growth. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +A new protein kinase, SSP31, modulating the SMP3 gene-product involved in plasmid maintenance in Saccharomyces cerevisiae. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Dominant mutations in a gene encoding a putative protein kinase (BCK1) bypass the requirement for a Saccharomyces cerevisiae protein kinase C homolog. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] +MUTAGENESIS OF THR-1119; ILE-1120; GLY-1146 AND ALA-1174 + +ATCC 204278 / EG123 / SM1058 + + + + +Sequence and function analysis of a 9.74 kb fragment of Saccharomyces cerevisiae chromosome X including the BCK1 gene. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Complete nucleotide sequence of Saccharomyces cerevisiae chromosome X. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 459-1173 + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-747 AND SER-1058 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-491 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-407; SER-411; SER-491; SER-816; SER-1058 AND SER-1061 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Serine/threonine protein kinase involved in a signal transduction pathway that plays a role in yeast cell morphogenesis and cell growth. This pathway seems to start by SMP3; then involve the kinase PKC1 that may act on this kinase. BCK1 probably phosphorylates MKK1 and MKK2 which themselves phosphorylate the MPK1 kinase. + + + +ATP + L-seryl-[protein] = ADP + H(+) + O-phospho-L-seryl-[protein] + + + + + + + + + + + + + +ATP + L-threonyl-[protein] = ADP + H(+) + O-phospho-L-threonyl-[protein] + + + + + + + + + + + + + +Q01389 + + +Q00684 + + +false +4 + + + +Q01389 + + +P36006 + + +false +6 + + + +Q01389 + + +Q04439 + + +false +6 + + + +Cytoplasm + + + +Present with 112 molecules/cell in log phase SD medium. + + +Belongs to the protein kinase superfamily. STE Ser/Thr protein kinase family. MAP kinase kinase kinase subfamily. + + + + + +Truncated N-terminus. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +ATP-binding +Cytoplasm +Kinase +Nucleotide-binding +Phosphoprotein +Reference proteome +Serine/threonine-protein kinase +Transferase +Tyrosine-protein kinase + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +T +P + + + + + +I +K + + + + + +I +T + + + + + +G +V + + + + + +A +P + + + + + +F +I + + + + + +E +V + + + + + +A +P + + + + + +N +I + + + + + +RYPQTPSYYYDR +STPKPRVITMTE + + + + + + +S +A + + + + + +L +V + + + + + +A +S + + + + + +T +N + + + + + +T +N + + + + + +A +R + + + + + +A +R + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MPFLRKIAGTAHTHSRSDSNSSVKFGHQPTSSVASTKSSSKSPRATSRKSIYDDIRSQFPNLTPNSTSSQFYESTPVIEQSFNWTTDDHISAGTLENPTSFTNSSYKNDNGPSSLSDSRKSSGGNSVNSLSFDKLILSWDPTDPDEWTMHRVTSWFKFHDFPESWILFFKKHQLFGHRFIKLLAYDNFAVYEKYLPQTKTASYTRFQQLLKKTMTKNVTNSHIRQKSASKLKSSRSSSESIKSKLKNSKSQEDISNSRSTSESALSPTKSGPSKTDEKNFLHSTSTHQKTKSASSLYRRSFISLRGSSSSNASSAKSPSNIKLSIPARPHSIIESNSTLTKSASPPASPSYPSIFRRHHKSSSSESSLLNSLFGSGIGEEAPTKPNPQGHSLSSENLAKGKSKHYETNVSSPLKQSSLPTSDDKGNLWNKFKRKSQIGVPSPNTVAYVTSQETPSLKSNSSTATLTVQTADVNIPSPSSSPPPIPKTANRSLEVISTEDTPKISSTTASFKETYPDCINPDKTVPVPVNNQKYSVKNFLLDQKFYPLKKTGLNDSENKYILVTKDNVSFVPLNLKSVAKLSSFKESALTKLGINHKNVTFHMTDFDCDIGAAIPDDTLEFLKKSLFLNTSGKIYIKDQMKLQQKPKPAPLTSENNVPLKSVKSKSSMRSGTSSLIASTDDVSIVTSSSDITSFDEHASGSGRRYPQTPSYYYDRVSNTNPTEELNYWNIKEVLSHEENAPKMVFKTSPKLELNLPDKGSKLNIPTPITENESKSSFQVLRKDEGTEIDFNHRRESPYTKPELAPKREAPKPPANTSPQRTLSTSKQNKPIRLVRASTKISRSKRSKPLPPQLLSSPIEASSSSPDSLTSSYTPASTHVLIPQPYKGANDVMRRLKTDQDSTSTSPSLKMKQKVNRSNSTVSTSNSIFYSPSPLLKRGNSKRVVSSTSAADIFEENDITFADAPPMFDSDDSDDDSSSSDDIIWSKKKTAPETNNENKKDEKSDNSSTHSDEIFYDSQTQDKMERKMTFRPSPEVVYQNLEKFFPRANLDKPITEGIASPTSPKSLDSLLSPKNVASSRTEPSTPSRPVPPDSSYEFIQDGLNGKNKPLNQAKTPKRTKTIRTIAHEASLARKNSVKLKRQNTKMWGTRMVEVTENHMVSINKAKNSKGEYKEFAWMKGEMIGKGSFGAVYLCLNVTTGEMMAVKQVEVPKYSSQNEAILSTVEALRSEVSTLKDLDHLNIVQYLGFENKNNIYSLFLEYVAGGSVGSLIRMYGRFDEPLIKHLTTQVLKGLAYLHSKGILHRDMKADNLLLDQDGICKISDFGISRKSKDIYSNSDMTMRGTVFWMAPEMVDTKQGYSAKVDIWSLGCIVLEMFAGKRPWSNLEVVAAMFKIGKSKSAPPIPEDTLPLISQIGRNFLDACFEINPEKRPTANELLSHPFSEVNETFNFKSTRLAKFIKSNDKLNSSKLRITSQENKTE + + +P07267 +D6W3L4 +CARP_YEAST + + +Saccharopepsin +3.4.23.25 + + +Aspartate protease +PrA +Proteinase A + + +Carboxypeptidase Y-deficient protein 4 + + +Proteinase YSCA + + + +PEP4 +PHO9 +PRA1 +YPL154C +P2585 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The PEP4 gene encodes an aspartyl protease implicated in the posttranslational regulation of Saccharomyces cerevisiae vacuolar hydrolases. + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +PEP4 gene of Saccharomyces cerevisiae encodes proteinase A, a vacuolar enzyme required for processing of vacuolar precursors. + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The sequence of 55 kb on the left arm of yeast chromosome XVI identifies a small nuclear RNA, a new putative protein kinase and two new putative regulators. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204511 / S288c / AB972 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Primary structure of the aspartic proteinase A from Saccharomyces cerevisiae. + + + + + + + +PROTEIN SEQUENCE OF 77-405 + + + +Kinesin-related proteins required for assembly of the mitotic spindle. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 373-405 + +ATCC 204508 / S288c + + + + +Vacuolar and extracellular maturation of Saccharomyces cerevisiae proteinase A. + + + + + + + + +PROTEIN SEQUENCE OF 23-31 AND 68-86 + + + +Biogenesis of the yeast vacuole (lysosome). Active site mutation in the vacuolar aspartate proteinase yscA blocks maturation of vacuolar proteinases. + + + + + + + + +MUTAGENESIS OF ASP-294 + + + +The three-dimensional structure at 2.4-A resolution of glycosylated proteinase A from the lysosome-like vacuole of Saccharomyces cerevisiae. + + + + + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.4 ANGSTROMS) + + +Aspartyl protease implicated in the post-translational regulation of S.cerevisiae vacuolar proteinases. Acts on YSCB, on YSCY and on itself. + + + +Hydrolysis of proteins with broad specificity for peptide bonds. Cleaves -Leu-Leu-|-Val-Tyr- bond in a synthetic substrate. Does not act on esters of Tyr or Arg. + + + + + +Vacuole + +Lysosome-like vacuoles. + + +Belongs to the peptidase A1 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Aspartyl protease +Direct protein sequencing +Disulfide bond +Glycoprotein +Hydrolase +Protease +Reference proteome +Signal +Vacuole +Zymogen + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +D +A + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MFSLKALLPLALLLVSANQVAAKVHKAKIYKHELSDEMKEVTFEQHLAHLGQKYLTQFEKANPEVVFSREHPFFTEGGHDVPLTNYLNAQYYTDITLGTPPQNFKVILDTGSSNLWVPSNECGSLACFLHSKYDHEASSSYKANGTEFAIQYGTGSLEGYISQDTLSIGDLTIPKQDFAEATSEPGLTFAFGKFDGILGLGYDTISVDKVVPPFYNAIQQDLLDEKRFAFYLGDTSKDTENGGEATFGGIDESKFKGDITWLPVRRKAYWEVKFEGIGLGDEYAELESHGAAIDTGTSLITLPSGLAEMINAEIGAKKGWTGQYTLDCNTRDNLPDLIFNFNGYNFTIGPYDYTLEVSGSCISAITPMDFPEPVGPLAIVGDAFLRKYYSIYDLGNNAVGLAKAI + + +P29547 +D6W3W6 +Q9URC6 +EF1G1_YEAST + + +Elongation factor 1-gamma 1 +EF-1-gamma 1 + + +Calcium and membrane-binding protein 1 + + +Calcium phospholipid-binding protein +CPBP + + +Eukaryotic elongation factor 1Bgamma 1 +eEF1Bgamma 1 + + +Translation elongation factor 1B gamma 1 + + + +CAM1 +TEF3 +YPL048W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +DRS1 to DRS7, novel genes required for ribosome assembly and function in Saccharomyces cerevisiae. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Cloning and genetic characterization of a calcium- and phospholipid-binding protein from Saccharomyces cerevisiae that is homologous to translation elongation factor-1 gamma. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Calcium-dependent secretory vesicle-binding and lipid-binding proteins of Saccharomyces cerevisiae. + + + + + + + + +PROTEIN SEQUENCE OF 357-373 + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +A homologue of elongation factor 1 gamma regulates methionine sulfoxide reductase A gene expression in Saccharomyces cerevisiae. + + + + + + + + +FUNCTION IN TRANSCRIPTIONAL REGULATION +SUBCELLULAR LOCATION +IDENTIFICATION BY MASS SPECTROMETRY + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-32 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +ACETYLATION [LARGE SCALE ANALYSIS] AT SER-2 +CLEAVAGE OF INITIATOR METHIONINE [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +The crystal structure of the glutathione S-transferase-like domain of elongation factor 1Bgamma from Saccharomyces cerevisiae. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.0 ANGSTROMS) OF 2-219 +INTERACTION WITH EFB1 +PUTATIVE STRUCTURE OF THE EEF1 COMPLEX + + +Subunit of the eukaryotic elongation factor 1 complex (eEF1). Probably plays a role in anchoring the complex to other cellular components. May be involved in transcriptional regulation of MXR1. + + +Protein biosynthesis; polypeptide chain elongation. + + +The eukaryotic elongation factor 1 complex (eEF1) is probably a heterohexamer. Two trimeric complexes, each composed of eEF1A (TEF1 or TEF2), eEF1Balpha (EFB1) and eEF1Bgamma (CAM1 or TEF4), are probably dimerized via the eF1Bgamma subunits. The eEF1B subcomplex with the GEF activity is formed of eEF1Balpha and eEF1Bgamma. CAM1 interacts with EFB1. Component of a complex bound to MXR1 promoter region. + + + +Cytoplasm + + +Nucleus + + + +Ths GST-like domain mediates the interaction to eEFB1 and may be responsible for dimerization of the eEF1 complex. + + +Present with 60865 molecules/cell in log phase SD medium. + + +There are 2 isoforms for eEF1Bgamma in yeast. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +Cytoplasm +Direct protein sequencing +Elongation factor +Nucleus +Phosphoprotein +Protein biosynthesis +Reference proteome + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +W +C + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSQGTLYANFRIRTWVPRGLVKALKLDVKVVTPDAAAEQFARDFPLKKVPAFVGPKGYKLTEAMAINYYLVKLSQDDKMKTQLLGADDDLNAQAQIIRWQSLANSDLCIQIANTIVPLKGGAPYNKKSVDSAMDAVDKIVDIFENRLKNYTYLATENISLADLVAASIFTRYFESLFGTEWRAQHPAIVRWFNTVRASPFLKDEYKDFKFADKPLSPPQKKKEKKAPAAAPAASKKKEEAKPAATETETSSKKPKHPLELLGKSTFVLDDWKRKYSNEDTRPVALPWFWEHYNPEEYSLWKVTYKYNDELTLTFMSNNLVGGFFNRLSASTKYMFGCLVVYGENNNNGIVGAVMVRGQDYVPAFDVAPDWESYDYAKLDPTNDDDKEFINNMWAWDKPVSVNGEPKEIVDGKVLK + + +P43616 +D6VTS7 +DUG1_YEAST + + +Cys-Gly metallodipeptidase DUG1 +3.4.13.- + + +Deficient in utilization of glutathione protein 1 + + +GSH degradosomal complex subunit DUG1 + + + +DUG1 +YFR044C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Analysis of the nucleotide sequence of chromosome VI from Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Analysis of a 36.2 kb DNA sequence including the right telomere of chromosome VI from Saccharomyces cerevisiae. + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204511 / S288c / AB972 + + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Linking genome and proteome by mass spectrometry: large-scale identification of yeast proteins from two dimensional gels. + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Toward the complete yeast mitochondrial proteome: multidimensional separation techniques for mitochondrial proteomics. + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY + + + +The alternative pathway of glutathione degradation is mediated by a novel protein complex involving three new genes in Saccharomyces cerevisiae. + + + + + + + + +FUNCTION +IDENTIFICATION IN THE GSH DEGRADOSOMAL COMPLEX +SUBCELLULAR LOCATION + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-451 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Dug1p Is a Cys-Gly peptidase of the gamma-glutamyl cycle of Saccharomyces cerevisiae and represents a novel family of Cys-Gly peptidases. + + + + + + + + + + +SUBUNIT +FUNCTION +COFACTOR +DISRUPTION PHENOTYPE + + +Catalytic component of the GSH degradosomal complex involved in the degradation of glutathione (GSH) and other peptides containing a gamma-glu-X bond. Functions also in a DUG2-DUG3-independent manner as a dipeptidase with high specificity for Cys-Gly and no activity toward tri- or tetrapeptides. + + + +Zn(2+) + + + +Mn(2+) + + + + + +0.4 mM for Cys-Gly (at pH 8.0 and in the presence of 20 uM manganese ions) +0.8 mM for Cys-Gly (at pH 8.0 and in the presence of 200 uM zinc ions) + + + +Homodimer. Component of the GSH degradosomal complex composed of at least DUG1, DUG2 and DUG3. + + + +P43616 + + +P43616 + + +false +2 + + + +Cytoplasm + + +Mitochondrion + + + +Accumulation of Cys-Gly dipeptide and enhanced GSH toxicity. + + +Present with 22300 molecules/cell in log phase SD medium. + + +Belongs to the peptidase M20A family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Dipeptidase +Hydrolase +Manganese +Metal-binding +Metalloprotease +Mitochondrion +Phosphoprotein +Protease +Reference proteome +Zinc + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSHSLTSVFQKIDSLKPQFFSRLTKAIQIPAVSSDESLRSKVFDKAKFISEQLSQSGFHDIKMVDLGIQPPPISTPNLSLPPVILSRFGSDPSKKTVLVYGHYDVQPAQLEDGWDTEPFKLVIDEAKGIMKGRGVTDDTGPLLSWINVVDAFKASGQEFPVNLVTCFEGMEESGSLKLDELIKKEANGYFKGVDAVCISDNYWLGTKKPVLTYGLRGCNYYQTIIEGPSADLHSGIFGGVVAEPMIDLMQVLGSLVDSKGKILIDGIDEMVAPLTEKEKALYKDIEFSVEELNAATGSKTSLYDKKEDILMHRWRYPSLSIHGVEGAFSAQGAKTVIPAKVFGKFSIRTVPDMDSEKLTSLVQKHCDAKFKSLNSPNKCRTELIHDGAYWVSDPFNAQFTAAKKATKLVYGVDPDFTREGGSIPITLTFQDALNTSVLLLPMGRGDDGAHSINEKLDISNFVGGMKTMAAYLQYYSESPEN + + +P02994 +D6VQB6 +Q7Z7U8 +Q7Z8Q8 +Q7Z8Q9 +EF1A_YEAST + + +Elongation factor 1-alpha +EF-1-alpha + + +Eukaryotic elongation factor 1A +eEF1A + + +Translation elongation factor 1A + + + +TEF1 +YPR080W +P9513.7 + + +TEF2 +YBR118W +YBR0913 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Polypeptide chain elongation factor 1 alpha (EF-1 alpha) from yeast: nucleotide sequence of one of the two genes for EF-1 alpha from Saccharomyces cerevisiae. + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] (TEF1) + + + +Identification of two genes coding for the translation elongation factor EF-1 alpha of S. cerevisiae. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] (TEF2) + + + +Cloning, nucleotide sequence, and expression of one of two genes coding for yeast elongation factor 1 alpha. + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] (TEF1) + + + +Structure of the two genes coding for polypeptide chain elongation factor 1 alpha (EF-1 alpha) from Saccharomyces cerevisiae. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] (TEF1 AND TEF2) + + + +Analysis of a 70 kb region on the right arm of yeast chromosome II. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] (TEF2) + +ATCC 204508 / S288c + + + + +Complete DNA sequence of yeast chromosome II. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] (TEF2) + +ATCC 204508 / S288c + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] (TEF1) + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION (TEF1 AND TEF2) + +ATCC 204508 / S288c + + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] (TEF1) + +ATCC 204508 / S288c + + + + +TKL2, a second transketolase gene of Saccharomyces cerevisiae. Cloning, sequence and deletion analysis of the gene. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 1-237 (TEF1) + +ATCC 204508 / S288c + + + + +Characterization of yeast EF-1 alpha: non-conservation of post-translational modifications. + + + + + + + + + +PARTIAL PROTEIN SEQUENCE +METHYLATION AT LYS-30; LYS-79; LYS-316 AND LYS-390 + + + +Association of elongation factor 1 alpha and ribosomal protein L3 with the proline-rich region of yeast adenylyl cyclase-associated protein CAP. + + + + + + + + + + + + +PROTEIN SEQUENCE OF 6-20 +INTERACTION WITH SRV2 + + + +Two-dimensional electrophoretic separation of yeast proteins using a non-linear wide range (pH 3-10) immobilized pH gradient in the first dimension; reproducibility and evidence for isoelectric focusing of alkaline (pI > 7) proteins. + + + + + + + +PROTEIN SEQUENCE OF 56-61 AND 265-280 + +ATCC 44827 / SKQ2N + + + + +Elongation factor 1 alpha from Saccharomyces cerevisiae. Rapid large-scale purification and molecular characterization. + + + + + + + + + + +PROTEIN SEQUENCE OF 70-77 AND 80-87 + + + +Interaction of Rho1p target Bni1p with F-actin-binding elongation factor 1alpha: implication in Rho1p-regulated reorganization of the actin cytoskeleton in Saccharomyces cerevisiae. + + + + + + + + + + + + +PROTEIN SEQUENCE OF 211-214 AND 289-308 +INTERACTION WITH BNI1 +IDENTIFICATION IN A COMPLEX WITH BNI1 AND PROFILIN + + + +Phylogenetic relationships among yeasts of the 'Saccharomyces complex' determined from multigene sequence analyses. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 22-397 + +ATCC 13507 / CBS 459 / NRRL Y-12649 +ATCC 18824 / CBS 1171 / DSM 70449 / IFO 10217 / NRRL Y-12632 +ATCC 24702 / NRRL Y-2034 +Diastaticus / ATCC 13007 / CBS 1782 / IFO 1046 / NRRL Y-2416 +NRRL YB-210 + + + + +Mutations in elongation factor EF-1 alpha affect the frequency of frameshifting and amino acid misincorporation in Saccharomyces cerevisiae. + + + + + + +FUNCTION +MUTAGENESIS OF GLU-286 AND GLU-317 + + + +Competition and cooperation amongst yeast elongation factors. + + + + + + + + + +INTERACTION WITH YEF3 +MUTAGENESIS OF GLU-122 + + + +Site-directed mutagenesis of yeast eEF1A. Viable mutants with altered nucleotide specificity. + + + + + + + +BIOPHYSICOCHEMICAL PROPERTIES +MUTAGENESIS OF ASN-153 AND ASP-156 + + + +Interaction of ZPR1 with translation elongation factor-1alpha in proliferating cells. + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY +INTERACTION WITH ZPR1 + + + +Mutations in a GTP-binding motif of eukaryotic elongation factor 1A reduce both translational fidelity and the requirement for nucleotide exchange. + + + + + + + + + + +MUTAGENESIS OF ASN-153 AND ASP-156 + + + +An aminoacylation-dependent nuclear tRNA export pathway in yeast. + + + + + + + +FUNCTION IN NUCLEAR EXPORT OF AMINOACYL-TRNAS + + + +A novel post-translational modification of yeast elongation factor 1A. Methylesterification at the C-terminus. + + + + + + + + + +METHYLATION AT LYS-458 + + + +Overexpression of translation elongation factor 1A affects the organization and function of the actin cytoskeleton in yeast. + + + + + + + + + + +INTERACTION WITH ACTIN + + + +Protein S-thiolation targets glycolysis and protein synthesis in response to oxidative stress in the yeast Saccharomyces cerevisiae. + + + + + + + +S-THIOLATION + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Proteasome-mediated degradation of cotranslationally damaged proteins involves translation elongation factor 1A. + + + + + + + + + + + +FUNCTION +MUTAGENESIS OF ASP-156 +INTERACTION WITH RPT1 + + + +Cex1p is a novel cytoplasmic component of the Saccharomyces cerevisiae nuclear tRNA export machinery. + + + + + + + +INTERACTION WITH CEX1 + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-18; THR-72; THR-82; SER-163 AND THR-430 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Phosphorylation by casein kinase 2 regulates Nap1 localization and function. + + + + + + + + + + + +INTERACTION WITH NAP1 +IDENTIFICATION BY MASS SPECTROMETRY + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-259 AND SER-414 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-289 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Two novel methyltransferases acting upon eukaryotic elongation factor 1A in Saccharomyces cerevisiae. + + + + + + + + +METHYLATION + + + +Evidence that eukaryotic translation elongation factor 1A (eEF1A) binds the Gcn2 protein C terminus and inhibits Gcn2 activity. + + + + + + + + + + + + +FUNCTION +INTERACTION WITH GCN2 +ASSOCIATION WITH RIBOSOMES + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-224; LYS-242; LYS-253; LYS-271; LYS-393 AND LYS-437 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Methylation of translation-associated proteins in Saccharomyces cerevisiae: Identification of methylated lysines and their methyltransferases. + + + + + + + + + + +METHYLATION AT LYS-30 BY EFM1 +METHYLATION AT LYS-316 BY SEE1 +METHYLATION AT LYS-79 AND LYS-390 + + + +A new type of protein lysine methyltransferase trimethylates Lys-79 of elongation factor 1A. + + + + + + + + + + +METHYLATION AT LYS-79 BY EFM5 + + + +Stoichiometry of Saccharomyces cerevisiae lysine methylation: insights into non-histone protein lysine methyltransferase activity. + + + + + + + + + + + +METHYLATION AT LYS-30; LYS-79 AND LYS-390 +METHYLATION AT LYS-316 BY SEE1 + + + +Saccharomyces cerevisiae eukaryotic elongation factor 1A (eEF1A) is methylated at Lys-390 by a METTL21-like methyltransferase. + + + + + + + + + + +METHYLATION AT LYS-390 BY EFM6 + + + +Novel N-terminal and lysine methyltransferases that target translation elongation factor 1A in yeast and human. + + + + + + + + + + + +METHYLATION AT GLY-2 AND LYS-3 BY NNT1 + + + +Structural basis for nucleotide exchange and competition with tRNA in the yeast elongation factor complex eEF1A:eEF1Balpha. + + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (1.67 ANGSTROMS) IN COMPLEX WITH EFB1 + + + +Crystal structures of nucleotide exchange intermediates in the eEF1A-eEF1Balpha complex. + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.05 ANGSTROMS) IN COMPLEX WITH EFB1 + + +GTP-binding component of the eukaryotic elongation factor 1 complex (eEF1). In its active GTP-bound form, binds to and delivers aminoacyl-tRNA to the A-site of ribosomes during protein biosynthesis. In the presence of a correct codon-anticodon match between the aminoacyl-tRNA and the A-site codon of the ribosome-bound mRNA, the ribosome acts as a GTPase activator and the GTP is hydrolyzed. The inactive GDP-bound form leaves the ribosome and must be recycled by its guanine nucleotide exchange factor (GEF) (eEF1B subcomplex) before binding another molecule of aminoacyl-tRNA. Required for nuclear export of aminoacyl-tRNAs. May also be involved in translational quality control by targeting cotranslationally damaged proteins to the proteasome. Also exhibits actin filament-binding and -bundling activities and is involved in cytoskeleton organization. Plays a role as a negative regulator of GCN2 kinase activity by inhibiting GCN2-mediated eIF-2-alpha phosphorylation in amino acid-repleted cells (PubMed:21849502). + + + +0.14 mM for GTP + + + +Protein biosynthesis; polypeptide chain elongation. + + +The eukaryotic elongation factor 1 complex (eEF1) is probably a heterohexamer. Two trimeric complexes, each composed of eEF1A (TEF1 or TEF2), eEF1Balpha (EFB1) and eEF1Bgamma (CAM1 or TEF4), are probably dimerized via the eF1Bgamma subunits. eEF1A interacts directly with eEF1Balpha. Interacts with elongation factor 3 (YEF3 or HEF3), BNI1, SRV2 and ZPR1. Binds to actin and forms a ternary complex with BNI1 and profilin. Interacts with the proteasome, probably via RPT1. Interacts with CEX1 and NAP1. Interacts with GCN2 (via C-terminus); this interaction is direct, occurs in amino acid-repleted cells, may be stabilzed in a ribosome-dependent manner, reduces GCN2-mediated eIF-2-alpha phosphorylation and is lost in amino acid-starved cells and by uncharged tRNAs (PubMed:21849502). Associates with ribosomes (PubMed:21849502). + + + +P02994 + + +P43573 + + +false +2 + + + +P02994 + + +P32471 + + +false +2 + + + +P02994 + + +Q05040 + + +false +2 + + + +P02994 + + +P17555 + + +false +3 + + + +P02994 + + +Q62384 + + +true +2 + + + +Cytoplasm + + +Cytoplasm +Cytoskeleton + + + +S-thiolated in response to oxidative stress, probably inhibiting the protein and causing a reduction in protein synthesis. + + +Present with 827 molecules/cell in log phase SD medium. + + +There are two genes for eEF1A in yeast. + + +Belongs to the TRAFAC class translation factor GTPase superfamily. Classic translation factor GTPase family. EF-Tu/EF-1A subfamily. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Actin-binding +Cytoplasm +Cytoskeleton +Direct protein sequencing +Elongation factor +GTP-binding +Isopeptide bond +Methylation +Nucleotide-binding +Phosphoprotein +Protein biosynthesis +Reference proteome +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +E +K + + + + + +N +D + + + + + +N +T + + + + + +D +E + + + + + +D +N + + + + + +D +W + + + + + +E +K + + + + + +E +K + + + + + +Q +E + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MGKEKSHINVVVIGHVDSGKSTTTGHLIYKCGGIDKRTIEKFEKEAAELGKGSFKYAWVLDKLKAERERGITIDIALWKFETPKYQVTVIDAPGHRDFIKNMITGTSQADCAILIIAGGVGEFEAGISKDGQTREHALLAFTLGVRQLIVAVNKMDSVKWDESRFQEIVKETSNFIKKVGYNPKTVPFVPISGWNGDNMIEATTNAPWYKGWEKETKAGVVKGKTLLEAIDAIEQPSRPTDKPLRLPLQDVYKIGGIGTVPVGRVETGVIKPGMVVTFAPAGVTTEVKSVEMHHEQLEQGVPGDNVGFNVKNVSVKEIRRGNVCGDAKNDPPKGCASFNATVIVLNHPGQISAGYSPVLDCHTAHIACRFDELLEKNDRRSGKKLEDHPKFLKSGDAALVKFVPSKPMCVEAFSEYPPLGRFAVRDMRQTVAVGVIKSVDKTEKAAKVTKAAQKAAKK + + +P16521 +D6VYP7 +O93815 +Q06558 +EF3A_YEAST + + +Elongation factor 3A +EF-3 +EF-3A +3.6.4.- + + +Eukaryotic elongation factor 3 +eEF3 + + +Translation elongation factor 3A + + +Yeast elongation factor 3 + + + +YEF3 +EFC1 +TEF3 +YEF3A +YLR249W +L9672.5 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Sequence analysis of the translational elongation factor 3 from Saccharomyces cerevisiae. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Isolation and characterization of the structural gene encoding elongation factor 3. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Protein synthesis in yeast. Structural and functional analysis of the gene encoding elongation factor 3. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Detection and analysis of translation elongation factor 3 genes from various yeasts. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 446-955 + +ATCC 208279 / BJ926 + + + + +Protein identifications for a Saccharomyces cerevisiae protein database. + + + + + + + + + + + + + +PROTEIN SEQUENCE OF 959-967 + +ATCC 204508 / S288c + + + + +Protein synthesis in yeast. I. Purification and properties of elongation factor 3 from Saccharomyces cerevisiae. + + + + + + +FUNCTION +CATALYTIC ACTIVITY + + + +The elongation factor 3 unique in higher fungi and essential for protein biosynthesis is an E site factor. + + + + + + + + +FUNCTION +CATALYTIC ACTIVITY + + + +Comparative analysis of ribosome-associated adenosinetriphosphatase (ATPase) from pig liver and the ATPase of elongation factor 3 from Saccharomyces cerevisiae. + + + + + + + +CATALYTIC ACTIVITY +BIOPHYSICOCHEMICAL PROPERTIES +ACTIVITY REGULATION + + + +Proteome studies of Saccharomyces cerevisiae: identification and characterization of abundant proteins. + + + + + + + + + + + + + + + + +ACETYLATION AT SER-2 + + + +Competition and cooperation amongst yeast elongation factors. + + + + + + + + + +INTERACTION WITH EEF1A + + + +Identification and kinetic analysis of a functional homolog of elongation factor 3, YEF3 in Saccharomyces cerevisiae. + + + + + + + + + + + + +CHARACTERIZATION + + + +The N-terminus of eukaryotic translation elongation factor 3 interacts with 18 S rRNA and 80 S ribosomes. + + + + + + + + + +INTERACTION WITH 18S RRNA + + + +A sampling of the yeast proteome. + + + + + + + + + + +PHOSPHORYLATION + + + +Functional interactions between yeast translation eukaryotic elongation factor (eEF) 1A and eEF3. + + + + + + + + + + +MUTAGENESIS OF PHE-650 +INTERACTION WITH EEF1A + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-1039 AND SER-1040 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-972; SER-1039 AND SER-1040 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-642; THR-972; SER-974; SER-1039 AND SER-1040 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Overexpression of eukaryotic translation elongation factor 3 impairs Gcn2 protein activation. + + + + + + + + + +FUNCTION +ASSOCIATION WITH RIBOSOMES +DOMAIN + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +ACETYLATION [LARGE SCALE ANALYSIS] AT SER-2 +CLEAVAGE OF INITIATOR METHIONINE [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-350 AND LYS-636 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Methylation of translation-associated proteins in Saccharomyces cerevisiae: Identification of methylated lysines and their methyltransferases. + + + + + + + + + + +METHYLATION AT LYS-187; LYS-196 AND LYS-789 + + + +Demonstration of translation elongation factor 3 activity from a non-fungal species, Phytophthora infestans. + + + + + + + + + + + + +FUNCTION +CATALYTIC ACTIVITY + + + +Eukaryotic Elongation Factor 3 Protects Saccharomyces cerevisiae Yeast from Oxidative Stress. + + + + + + + + + +INDUCTION + + +Ribosome-dependent ATPase that functions in cytoplasmic translation elongation (PubMed:7657623, PubMed:6456269, PubMed:29300771). Required for the ATP-dependent release of deacylated tRNA from the ribosomal E-site during protein biosynthesis (PubMed:7657623). Stimulates the eEF1A-dependent binding of aminoacyl-tRNA to the ribosomal A-site, which has reduced affinity for tRNA as long as the E-site is occupied (PubMed:7657623). Plays a role as a negative regulator of the GCN2 kinase activity; impairs GCN1-mediated GCN2 activation on ribosomes by reducing GCN1-ribosome affinity, and hence GCN2-mediated eIF-2-alpha phosphorylation in amino acid-starved or repleted cells (PubMed:22888004). + + + +ATP + H2O = ADP + H(+) + phosphate + + + + + + + + + +Inhibited by the translational inhibitors neomycin and alpha-sarcin, which suppress the ATPase activity. + + + +0.126 mM for ATP +0.125 mM for GTP +15.2 umol/min/mg enzyme with ATP as substrate + + + +Protein biosynthesis; polypeptide chain elongation. + + +Monomer. Interacts with elongation factor 1A (eEF1A). Interacts through its N-terminus with 18S rRNA. Associates with ribosomes (PubMed:22888004). + + + +Cytoplasm + + + +Increases in strong (1 mM) hydrogen peroxide stress, and decreases in milder (0.5 mM) hydrogen peroxide stress. + + +The heat repeats and the C-terminal domain are necessary for impairing GCN1 function on ribosomes, and hence preventing GCN2 kinase activity in amino acid-starved or repleted cells (PubMed:22888004). + + +Present with 870578 molecules/cell in log phase SD medium. + + +Belongs to the ABC transporter superfamily. ABCF family. EF3 subfamily. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +ATP-binding +Cytoplasm +Direct protein sequencing +Elongation factor +Hydrolase +Isopeptide bond +Methylation +Nucleotide-binding +Phosphoprotein +Protein biosynthesis +Reference proteome +Repeat +RNA-binding +rRNA-binding +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +F +S + + + + + +I +F + + + + + +V +L + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + 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+MSDSQQSIKVLEELFQKLSVATADNRHEIASEVASFLNGNIIEHDVPEHFFGELAKGIKDKKTAANAMQAVAHIANQSNLSPSVEPYIVQLVPAICTNAGNKDKEIQSVASETLISIVNAVNPVAIKALLPHLTNAIVETNKWQEKIAILAAISAMVDAAKDQVALRMPELIPVLSETMWDTKKEVKAAATAAMTKATETVDNKDIERFIPSLIQCIADPTEVPETVHLLGATTFVAEVTPATLSIMVPLLSRGLNERETGIKRKSAVIIDNMCKLVEDPQVIAPFLGKLLPGLKSNFATIADPEAREVTLRALKTLRRVGNVGEDDAIPEVSHAGDVSTTLQVVNELLKDETVAPRFKIVVEYIAAIGADLIDERIIDQQAWFTHITPYMTIFLHEKKAKDILDEFRKRAVDNIPVGPNFDDEEDEGEDLCNCEFSLAYGAKILLNKTQLRLKRARRYGICGPNGCGKSTLMRAIANGQVDGFPTQEECRTVYVEHDIDGTHSDTSVLDFVFESGVGTKEAIKDKLIEFGFTDEMIAMPISALSGGWKMKLALARAVLRNADILLLDEPTNHLDTVNVAWLVNYLNTCGITSITISHDSVFLDNVCEYIINYEGLKLRKYKGNFTEFVKKCPAAKAYEELSNTDLEFKFPEPGYLEGVKTKQKAIVKVTNMEFQYPGTSKPQITDINFQCSLSSRIAVIGPNGAGKSTLINVLTGELLPTSGEVYTHENCRIAYIKQHAFAHIESHLDKTPSEYIQWRFQTGEDRETMDRANRQINENDAEAMNKIFKIEGTPRRIAGIHSRRKFKNTYEYECSFLLGENIGMKSERWVPMMSVDNAWIPRGELVESHSKMVAEVDMKEALASGQFRPLTRKEIEEHCSMLGLDPEIVSHSRIRGLSGGQKVKLVLAAGTWQRPHLIVLDEPTNYLDRDSLGALSKALKEFEGGVIIITHSAEFTKNLTEEVWAVKDGRMTPSGHNWVSGQGAGPRIEKKEDEEDKFDAMGNKIAGGKKKKKLSSAELRKKKKERMKKKKELGDAYVSSDEEF + + +P53911 +D6W146 +EAF7_YEAST + + +Chromatin modification-related protein EAF7 + + +ESA1-associated factor 7 + + + +EAF7 +YNL136W +N1212 +N1843 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +A 43.5 kb segment of yeast chromosome XIV, which contains MFA2, MEP2, CAP/SRV2, NAM9, FKB1/FPR1/RBP1, MOM22 and CPT1, predicts an adenosine deaminase gene and 14 new open reading frames. + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XIV and its evolutionary implications. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Regulation of chromosome stability by the histone H2A variant Htz1, the Swr1 chromatin remodeling complex, and the histone acetyltransferase NuA4. + + + + + + + + + + + + + + + + + + + +IDENTIFICATION IN THE NUA4 COMPLEX +IDENTIFICATION BY MASS SPECTROMETRY + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-225 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-200 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Component of the NuA4 histone acetyltransferase complex which is involved in transcriptional activation of selected genes principally by acetylation of nucleosomal histone H4 and H2A. The NuA4 complex is also involved in DNA repair. + + +Component of the NuA4 histone acetyltransferase complex composed of at least ACT1, ARP4, YAF9, VID21, SWC4, EAF3, EAF5, EAF6, EAF7, EPL1, ESA1, TRA1 and YNG2. + + + +Nucleus + + + +Present with 300 molecules/cell in log phase SD medium. + + +Belongs to the EAF7 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Chromatin regulator +Coiled coil +DNA damage +DNA repair +Nucleus +Phosphoprotein +Reference proteome +Transcription +Transcription regulation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MVVHWTIVDEIRLLRWASEFKPAGIHKHFHMFCIVERMNSPDKYPVTLLQKETMKLGKVFTAKDIWDKLSQSYNLEKIDEMENTYSLEATTESSRNGNGNGDDAEIHEETLLELNNRIRVRKQDFTLPWEEYGELILENARKSPNSNEEYPRVEDMNEKDSTIPKESPSTDLKNDNNKQEKNATIKVKELPEYHTEENDSPIDVQKEPIKEVQSDEKELQREHMSEEEQKMKSTNKTAAPVRKSQRLKRSKEVKFEDEEKEEIEEDNTKDEEQKEKKEEIQEPKITHNEEVDKEKNENEEGDDEREKSTSYENTNGSESEGVDEGVDEELGYESEREAEGKGKQIESEGGNLKKKTENKKGDDQQDDTKKDSKDKNEPLAKRTRHSSSTGNTSNETSPKRKRRKAGSRKNSPPATRVSSRLRNKK + + +P00359 +D6VUX4 +Q6Q5P9 +G3P3_YEAST + + +Glyceraldehyde-3-phosphate dehydrogenase 3 +GAPDH 3 +1.2.1.12 + + + +TDH3 +GPD3 +YGR192C +G7576 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The primary structure of a glyceraldehyde-3-phosphate dehydrogenase gene from Saccharomyces cerevisiae. + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The complete sequence of a 9037 bp DNA fragment of the right arm of Saccharomyces cerevisiae chromosome VII. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome VII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Glyceraldehyde 3-phosphate dehydrogenase: Amino acid sequence of enzyme from baker's yeast. + + + + + + + +PARTIAL PROTEIN SEQUENCE OF 2-332 +CLEAVAGE OF INITIATOR METHIONINE + + + +Protein identifications for a Saccharomyces cerevisiae protein database. + + + + + + + + + + + + + +PROTEIN SEQUENCE OF 47-58 + +ATCC 204508 / S288c + + + + +Gene linkage of two-dimensional polyacrylamide gel electrophoresis resolved proteins from isogene families in Saccharomyces cerevisiae by microsequencing of in-gel trypsin generated peptides. + + + + + + + +PARTIAL PROTEIN SEQUENCE + +ATCC 38531 / Y41 +ATCC 44827 / SKQ2N + + + + +Yeast mitochondrial dehydrogenases are associated in a supramolecular complex. + + + + + + + + + + + +SUBCELLULAR LOCATION + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Toward the complete yeast mitochondrial proteome: multidimensional separation techniques for mitochondrial proteomics. + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-302 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-46 AND LYS-63 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Structure of GAPDH 3 from S.cerevisiae at 2.0 A resolution. + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.00 ANGSTROMS) + + + +Preliminary crystallographic analysis of glyceraldehyde-3-phosphate dehydrogenase 3 from Saccharomyces cerevisiae. + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.49 ANGSTROMS) +SUBUNIT + + + +D-glyceraldehyde 3-phosphate + NAD(+) + phosphate = (2R)-3-phospho-glyceroyl phosphate + H(+) + NADH + + + + + + + + + + + +Carbohydrate degradation; glycolysis; pyruvate from D-glyceraldehyde 3-phosphate: step 1/5. + + +Homotetramer. + + + +Cytoplasm + + +Mitochondrion + + + +There are three genes for G3PDH in yeast. + + +Present with 169000 molecules/cell in log phase SD medium. + + +Belongs to the glyceraldehyde-3-phosphate dehydrogenase family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +Glycolysis +Isopeptide bond +Mitochondrion +NAD +Oxidoreductase +Phosphoprotein +Reference proteome +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +E +V + + + + + +N +D + + + + + +D +G + + + + + +V +I + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MVRVAINGFGRIGRLVMRIALSRPNVEVVALNDPFITNDYAAYMFKYDSTHGRYAGEVSHDDKHIIVDGKKIATYQERDPANLPWGSSNVDIAIDSTGVFKELDTAQKHIDAGAKKVVITAPSSTAPMFVMGVNEEKYTSDLKIVSNASCTTNCLAPLAKVINDAFGIEEGLMTTVHSLTATQKTVDGPSHKDWRGGRTASGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTVDVSVVDLTVKLNKETTYDEIKKVVKAAAEGKLKGVLGYTEDAVVSSDFLGDSHSSIFDASAGIQLSPKFVKLVSWYDNEYGYSTRVVDLVEHVAKA + + +P00358 +D6VWI4 +G3P2_YEAST + + +Glyceraldehyde-3-phosphate dehydrogenase 2 +GAPDH 2 +1.2.1.12 + + + +TDH2 +GPD2 +YJR009C +J1433 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +TDH2 is linked to MET3 on chromosome X of Saccharomyces cerevisiae. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Structural comparison of two nontandemly repeated yeast glyceraldehyde-3-phosphate dehydrogenase genes. + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Complete nucleotide sequence of Saccharomyces cerevisiae chromosome X. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Gene linkage of two-dimensional polyacrylamide gel electrophoresis resolved proteins from isogene families in Saccharomyces cerevisiae by microsequencing of in-gel trypsin generated peptides. + + + + + + + +PROTEIN SEQUENCE OF 24-37; 72-77; 81-86; 199-213; 226-232 AND 322-331 + +ATCC 38531 / Y41 + + + + + + + + + + + +PROTEIN SEQUENCE OF 2-13 + +ATCC 26786 / X2180-1A + + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-63 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +D-glyceraldehyde 3-phosphate + NAD(+) + phosphate = (2R)-3-phospho-glyceroyl phosphate + H(+) + NADH + + + + + + + + + + + +Carbohydrate degradation; glycolysis; pyruvate from D-glyceraldehyde 3-phosphate: step 1/5. + + +Homotetramer. + + + +P00358 + + +P0CG63 + + +false +2 + + + +Cytoplasm + + + +There are three genes for G3PDH in yeast. + + +Present with 121000 molecules/cell in log phase SD medium. + + +Belongs to the glyceraldehyde-3-phosphate dehydrogenase family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Direct protein sequencing +Glycolysis +Isopeptide bond +NAD +Oxidoreductase +Phosphoprotein +Reference proteome +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +E +A + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MVRVAINGFGRIGRLVMRIALQRKNVEVVALNDPFISNDYSAYMFKYDSTHGRYAGEVSHDDKHIIVDGHKIATFQERDPANLPWASLNIDIAIDSTGVFKELDTAQKHIDAGAKKVVITAPSSTAPMFVMGVNEEKYTSDLKIVSNASCTTNCLAPLAKVINDAFGIEEGLMTTVHSMTATQKTVDGPSHKDWRGGRTASGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTVDVSVVDLTVKLNKETTYDEIKKVVKAAAEGKLKGVLGYTEDAVVSSDFLGDSNSSIFDAAAGIQLSPKFVKLVSWYDNEYGYSTRVVDLVEHVAKA + + +P24583 +D6VPP8 +KPC1_YEAST + + +Protein kinase C-like 1 +PKC 1 +2.7.11.13 + + + +PKC1 +HPO2 +STT1 +YBL105C +YBL0807 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +A candidate protein kinase C gene, PKC1, is required for the S. cerevisiae cell cycle. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [MRNA] + +ATCC 204278 / EG123 / SM1058 + + + + +Sequence analysis of a 78.6 kb segment of the left end of Saccharomyces cerevisiae chromosome II. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Complete DNA sequence of yeast chromosome II. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION +SEQUENCE REVISION TO 81; 621 AND 789 + +ATCC 204508 / S288c + + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-226 AND SER-761 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Saccharomyces cerevisiae cell lysis mutations cly5 and cly7 define temperature-sensitive alleles of PKC1, the gene encoding yeast protein kinase C. + + + + + + + +VARIANTS CLY5 AND CLY7 + + +Required for cell growth and for the G2->M transition of the cell division cycle. Mediates a protein kinase cascade; it activates BCK1 which itself activates MKK1/MKK2. + + + +ATP + L-seryl-[protein] = ADP + H(+) + O-phospho-L-seryl-[protein] + + + + + + + + + + + + + +ATP + L-threonyl-[protein] = ADP + H(+) + O-phospho-L-threonyl-[protein] + + + + + + + + + + + + + +P24583 + + +P06786 + + +false +2 + + +Belongs to the protein kinase superfamily. AGC Ser/Thr protein kinase family. PKC subfamily. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +ATP-binding +Calcium +Cell cycle +Coiled coil +Kinase +Metal-binding +Nucleotide-binding +Phosphoprotein +Reference proteome +Repeat +Serine/threonine-protein kinase +Transferase +Zinc +Zinc-finger + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +T +I + + + + + +P +S + + + + + +C +F + + + + + +T +S + + + + + +G +E + + + + + +R +K + + + + + +S +P + + + + + +A +P + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSFSQLEQNIKKKIAVEENIIRGASALKKKTSNVMVIQKCNTNIREARQNLEYLEDSLKKLRLKTAQQSQGENGSEDNERCNSKEYGFLSTKSPNEHIFSRLDLVKYDCPSLAQRIQYMLQQLEFKLQVEKQYQEANTKLTKLYQIDGDQRSSSAAEGGAMESKYRIQMLNKALKKYQAINVDFDQFKHQPNDIMDNQQPKFRRKQLTGVLTIGITAARDVDHIQSPMFARKPESYVTIKIDDTIKARTKPSRNDRWSEDFQIPVEKGNEIEITVYDKVNDSLIPVAIMWLLLSDIAEEIRKKKAGQTNEQQGWVNASNINGGSSLASEEGSTLTSTYSNSAIQSTSAKNVQGENTSTSQISTNSWFVLEPSGQILLTLGFHKSSQIERKQLMGGLHRHGAIINRKEEIFEQHGHHFVQKSFYNIMCCAYCGDFLRYTGFQCQDCKFLCHKKCYTNVVTKCIAKTSTDTDPDEAKLNHRIPHRFLPTSNRGTKWCCHCGYILPWGRHKVRKCSECGIMCHAQCAHLVPDFCGMSMEMANKILKTIQDTKRNQEKKKRTVPSAQLGSSIGTANGSDLSPSKLAERANAPLPPQPRKHDKTPSPQKVGRDSPTKQHDPIIDKRISLQTHGREKLNKFIDENEAYLNFTEGAQQTAEFSSPEKTLDPTSNRRSLGLTDLSIEHSQTWESKDDLMRDELELWKAQREEMELEIKQDSGEIQEDLEVDHIDLETKQKLDWENKNDFREADLTIDSTHTNPFRDMNSETFQIEQDHASKEVLQETVSLAPTSTHASRTTDQQSPQKSQTSTSAKHKKRAAKRRKVSLDNFVLLKVLGKGNFGKVILSKSKNTDRLCAIKVLKKDNIIQNHDIESARAEKKVFLLATKTKHPFLTNLYCSFQTENRIYFAMEFIGGGDLMWHVQNQRLSVRRAKFYAAEVLLALKYFHDNGVIYRDLKLENILLTPEGHIKIADYGLCKDEMWYGNRTSTFCGTPEFMAPEILKEQEYTKAVDWWAFGVLLYQMLLCQSPFSGDDEDEVFNAILTDEPLYPIDMAGEIVQIFQGLLTKDPEKRLGAGPRDADEVMEEPFFRNINFDDILNLRVKPPYIPEIKSPEDTSYFEQEFTSAPPTLTPLPSVLTTSQQEEFRGFSFMPDDLDL + + +Q12460 +D6VYK0 +NOP56_YEAST + + +Nucleolar protein 56 + + +Ribosome biosynthesis protein SIK1 + + +Suppressor of I kappa b protein 1 + + + +NOP56 +SIK1 +YLR197W +L8167.9 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Genetic analysis of growth inhibition by GAL4-L kappa B-alpha in Saccharomyces cerevisiae. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +S288c / YPH1 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Nucleolar KKE/D repeat proteins Nop56p and Nop58p interact with Nop1p and are required for ribosome biogenesis. + + + + + + + + + +FUNCTION +INTERACTION WITH NOP1 AND NOP58 +SUBCELLULAR LOCATION +MUTAGENESIS OF VAL-333; TYR-355 AND MET-385 + + + +A large nucleolar U3 ribonucleoprotein required for 18S ribosomal RNA biogenesis. + + + + + + + + + + + + + + + + + + +IDENTIFICATION IN SSU PROCESSOME BY MASS SPECTROMETRY + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-321 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Required for 60S ribosomal subunit synthesis. + + +Interacts with NOP1 and NOP58. Component of the ribosomal small subunit (SSU) processome composed of at least 40 protein subunits and snoRNA U3. + + + +Q12460 + + +P15646 + + +false +5 + + + +Q12460 + + +P39990 + + +false +4 + + + +Nucleus +Nucleolus + + + +Present with 13500 molecules/cell in log phase SD medium. + + +Belongs to the NOP5/NOP56 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Nucleus +Phosphoprotein +Reference proteome +Ribonucleoprotein +Ribosome biogenesis + + + + + + + + + + + + + + + + + + + + + + + + +V +A + + + + + +Y +C + + + + + +M +R + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MAPIEYLLFEEPTGYAVFKVKLQQDDIGSRLKEVQEQINDFGAFTKLIELVSFAPFKGAAEALENANDISEGLVSESLKAILDLNLPKASSKKKNITLAISDKNLGPSIKEEFPYVDCISNELAQDLIRGVRLHGEKLFKGLQSGDLERAQLGLGHAYSRAKVKFSVQKNDNHIIQAIALLDQLDKDINTFAMRVKEWYGWHFPELAKLVPDNYTFAKLVLFIKDKASLNDDSLHDLAALLNEDSGIAQRVIDNARISMGQDISETDMENVCVFAQRVASLADYRRQLYDYLCEKMHTVAPNLSELIGEVIGARLISHAGSLTNLSKQAASTVQILGAEKALFRALKTKGNTPKYGLIYHSGFISKASAKNKGRISRYLANKCSMASRIDNYSEEPSNVFGSVLKKQVEQRLEFYNTGKPTLKNELAIQEAMELYNKDKPAAEVEETKEKESSKKRKLEDDDEEKKEKKEKKSKKEKKEKKEKKDKKEKKDKKEKKDKKKKSKD + + +Q99207 +D6VRK0 +NOP14_YEAST + + +Nucleolar complex protein 14 + + +U three protein 2 + + +U3 small nucleolar RNA-associated protein 2 +U3 snoRNA-associated protein 2 + + + +NOP14 +UTP2 +YDL148C +D1566 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Analysis of a 23 kb region on the left arm of yeast chromosome IV. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 96604 / S288c / FY1679 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Novel stress-responsive genes EMG1 and NOP14 encode conserved, interacting proteins required for 40S ribosome biogenesis. + + + + + + + +INTERACTION WITH EMG1 + + + +A large nucleolar U3 ribonucleoprotein required for 18S ribosomal RNA biogenesis. + + + + + + + + + + + + + + + + + + +FUNCTION +INTERACTION WITH MPP10 AND SNORNA U3 +IDENTIFICATION IN SSU PROCESSOME BY MASS SPECTROMETRY +SUBCELLULAR LOCATION + + + +A Noc complex specifically involved in the formation and nuclear export of ribosomal 40 S subunits. + + + + + + + + + + + + + + + +FUNCTION +INTERACTION WITH NOC4 +SUBCELLULAR LOCATION + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Involved in nucleolar processing of pre-18S ribosomal RNA. Has a role in the nuclear export of 40S pre-ribosomal subunit to the cytoplasm. + + +Interacts with snoRNA U3. Interacts with EMG1, MPP10 and NOC4. Component of the ribosomal small subunit (SSU) processome composed of at least 40 protein subunits and snoRNA U3. + + + +Q99207 + + +Q06287 + + +false +7 + + + +Q99207 + + +P38333 + + +false +10 + + + +Q99207 + + +P47083 + + +false +6 + + + +Q99207 + + +Q06512 + + +false +7 + + + +Q99207 + + +Q12136 + + +false +3 + + + +Q99207 + + +P53254 + + +false +7 + + + +Nucleus +Nucleolus + + + +Belongs to the NOP14 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Nucleus +Reference proteome +Ribonucleoprotein +Ribosome biogenesis +rRNA processing + + + + + + + + + + + + + + + + + + + + + + +MAGSQLKNLKAALKARGLTGQTNVKSKNKKNSKRQAKEYDREEKKKAIAEIREEFNPFEIKAARNKRRDGLPSKTADRIAVGKPGISKQIGEEQRKRAFEARKMMKNKRGGVIDKRFGERDKLLTEEEKMLERFTRERQSQSKRNANLFNLEDDEDDGDMFGDGLTHLGQSLSLEDELANDEEDFLASKRFNEDDAELQQPQRKKTKAEVMKEVIAKSKFYKQERQKAQGIMEDQIDNLDDNFEDVMSELMMTQPKKNPMEPKTDLDKEYDIKVKELQLDKRAAPSDRTKTEEEKNAEAEEKKRELEQQRLDRMNGMIELEEGEERGVEDLDDGFWENEEDYEDDNDGIADSDDDIKFEDQGRDEGFSQILKKKNISISCPRTHDALLDQVKKLDLDDHPKIVKNIIKAYQPKLAEGNKEKLGKFTAVLLRHIIFLSNQNYLKNVQSFKRTQNALISILKSLSEKYNRELSEECRDYINEMQARYKKNHFDALSNGDLVFFSIIGILFSTSDQYHLVITPALILMSQFLEQIKFNSLKRIAFGAVLVRIVSQYQRISKRYIPEVVYFFQKILLTFIVEKENQEKPLDFENIRLDSYELGLPLDVDFTKKRSTIIPLHTLSTMDTEAHPVDQCVSVLLNVMESLDATISTVWKSLPAFNEIILPIQQLLSAYTSKYSDFEKPRNILNKVEKLTKFTEHIPLALQNHKPVSIPTHAPKYEENFNPDKKSYDPDRTRSEINKMKAQLKKERKFTMKEIRKDAKFEARQRIEEKNKESSDYHAKMAHIVNTINTEEGAEKNKYERERKLRGGKK + + +P54784 +D6VZA8 +ORC1_YEAST + + +Origin recognition complex subunit 1 + + +Origin recognition complex 120 kDa subunit + + + +ORC1 +YML065W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The multidomain structure of Orc1p reveals similarity to regulators of DNA replication and transcriptional silencing. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] +PROTEIN SEQUENCE OF 381-408; 532-550; 642-653 AND 726-732 + + + +The origin recognition complex in silencing, cell cycle progression, and DNA replication. + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XIII. + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Interactions between Mcm10p and other replication factors are required for proper initiation and elongation of chromosomal DNA replication in Saccharomyces cerevisiae. + + + + + + + + +INTERACTION MCM10 + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Interaction between ORC and Cdt1p of Saccharomyces cerevisiae. + + + + + + + + + +FUNCTION +INTERACTION WITH TAH11 + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-237 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-237 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-237 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Component of the origin recognition complex (ORC) that binds origins of replication. It has a role in both chromosomal replication and mating type transcriptional silencing. Binds to the ARS consensus sequence (ACS) of origins of replication. + + +Component of the origin recognition complex (ORC) composed of at least ORC1, ORC2, ORC3, ORC4, ORC5 and ORC6. Interacts with MCM10 and TAH11. + + + +P54784 + + +P54791 + + +false +6 + + + +P54784 + + +P38826 + + +false +4 + + + +P54784 + + +P21691 + + +false +3 + + + +Nucleus + + + +The N-terminus is dedicated to mating-type repression. + + +Present with 3930 molecules/cell in log phase SD medium. + + +Belongs to the ORC1 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +ATP-binding +Direct protein sequencing +DNA replication +DNA-binding +Magnesium +Metal-binding +Nucleotide-binding +Nucleus +Phosphoprotein +Reference proteome + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MAKTLKDLQGWEIITTDEQGNIIDGGQKRLRRRGAKTEHYLKRSSDGIKLGRGDSVVMHNEAAGTYSVYMIQELRLNTLNNVVELWALTYLRWFEVNPLAHYRQFNPDANILNRPLNYYNKLFSETANKNELYLTAELAELQLFNFIRVANVMDGSKWEVLKGNVDPERDFTVRYICEPTGEKFVDINIEDVKAYIKKVEPREAQEYLKDLTLPSKKKEIKRGPQKKDKATQTAQISDAETRATDITDNEDGNEDESSDYESPSDIDVSEDMDSGEISADELEEEEDEEEDEDEEEKEARHTNSPRKRGRKIKLGKDDIDASVQPPPKKRGRKPKDPSKPRQMLLISSCRANNTPVIRKFTKKNVARAKKKYTPFSKRFKSIAAIPDLTSLPEFYGNSSELMASRFENKLKTTQKHQIVETIFSKVKKQLNSSYVKEEILKSANFQDYLPARENEFASIYLSAYSAIESDSATTIYVAGTPGVGKTLTVREVVKELLSSSAQREIPDFLYVEINGLKMVKPTDCYETLWNKVSGERLTWAASMESLEFYFKRVPKNKKKTIVVLLDELDAMVTKSQDIMYNFFNWTTYENAKLIVIAVANTMDLPERQLGNKITSRIGFTRIMFTGYTHEELKNIIDLRLKGLNDSFFYVDTKTGNAILIDAAGNDTTVKQTLPEDVRKVRLRMSADAIEIASRKVASVSGDARRALKVCKRAAEIAEKHYMAKHGYGYDGKTVIEDENEEQIYDDEDKDLIESNKAKDDNDDDDDNDGVQTVHITHVMKALNETLNSHVITFMTRLSFTAKLFIYALLNLMKKNGSQEQELGDIVDEIKLLIEVNGSNKFVMEIAKTLFQQGSDNISEQLRIISWDFVLNQLLDAGILFKQTMKNDRICCVKLNISVEEAKRAMNEDETLRNL + + +P06169 +D6VY46 +O00042 +Q07991 +Q12682 +Q12686 +Q12687 +PDC1_YEAST + + +Pyruvate decarboxylase isozyme 1 +4.1.1.- +4.1.1.43 +4.1.1.72 +4.1.1.74 + + +Thiamine pyrophosphate-dependent 2-oxo-acid decarboxylase +2ODC + + + +PDC1 +YLR044C +L2104 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Analysis of the primary structure and promoter function of a pyruvate decarboxylase gene (PDC1) from Saccharomyces cerevisiae. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Autoregulation may control the expression of yeast pyruvate decarboxylase structural genes PDC1 and PDC5. + + + + + + + +SEQUENCE REVISION + + + + + + + +SEQUENCE REVISION + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] (MUTANTS PDC1-8 AND PDC1-803) + + + +Protein identifications for a Saccharomyces cerevisiae protein database. + + + + + + + + + + + + + +PROTEIN SEQUENCE OF 37-52 + +ATCC 204508 / S288c + + + + +Gene linkage of two-dimensional polyacrylamide gel electrophoresis resolved proteins from isogene families in Saccharomyces cerevisiae by microsequencing of in-gel trypsin generated peptides. + + + + + + + +PROTEIN SEQUENCE OF 47-57; 260-269; 344-355; 486-497 AND 507-512 + +ATCC 38531 / Y41 + + + + +The influence of steric and electronic parameters on the substrate behavior of 2-oxo acids to yeast pyruvate decarboxylase. + + + + + + + + + + +FUNCTION +ENZYME ACTIVITY + + + +Genetic analysis of the pyruvate decarboxylase reaction in yeast glycolysis. + + + + + + + +MUTAGENESIS OF ASP-291 + + + +Brewers' yeast pyruvate decarboxylase produces acetoin from acetaldehyde: a novel tool to study the mechanism of steps subsequent to carbon dioxide loss. + + + + + + + +FUNCTION + + + +ERA, a novel cis-acting element required for autoregulation and ethanol repression of PDC1 transcription in Saccharomyces cerevisiae. + + + + + + + + +FUNCTION +ETHANOL REPRESSION OF EXPRESSION + + + +Proteome studies of Saccharomyces cerevisiae: identification and characterization of abundant proteins. + + + + + + + + + + + + + + + + +ACETYLATION AT SER-2 + + + +A 13C nuclear magnetic resonance investigation of the metabolism of leucine to isoamyl alcohol in Saccharomyces cerevisiae. + + + + + + + + + + + + +ROLE IN AMINO ACID CATABOLISM + + + +An investigation of the metabolism of valine to isobutyl alcohol in Saccharomyces cerevisiae. + + + + + + + + +ROLE IN VALINE CATABOLISM + + + +Growth requirements of pyruvate-decarboxylase-negative Saccharomyces cerevisiae. + + + + + + + + + +FUNCTION +CYTOSOLIC ACETYL-COA PRODUCTION + + + +Autoregulation of yeast pyruvate decarboxylase gene expression requires the enzyme but not its catalytic activity. + + + + + + + + + + + +FUNCTION +AUTOREGULATION OF PDC1 AND PDC5 EXPRESSION + + + +Identification and specificities of N-terminal acetyltransferases from Saccharomyces cerevisiae. + + + + + + + + + + +ACETYLATION AT SER-2 + + + +An investigation of the metabolism of isoleucine to active Amyl alcohol in Saccharomyces cerevisiae. + + + + + + + + + +ROLE IN ISOLEUCINE CATABOLISM + + + +Generation of odorous acyloins by yeast pyruvate decarboxylases and their occurrence in sherry and soy sauce. + + + + + + + + +FUNCTION +GENERATION OF ACYLOINS + + + +The catabolism of amino acids to long chain and complex alcohols in Saccharomyces cerevisiae. + + + + + + + + +ROLE IN PHENYLALANINE; TRYPTOPHAN AND LEUCINE CATABOLISM + + + +Identification and characterization of phenylpyruvate decarboxylase genes in Saccharomyces cerevisiae. + + + + + + + + + + +FUNCTION +AROMATIC AMINO ACIDS AS NITROGEN SOURCE + + + +Application of alpha-keto acid decarboxylases in biotransformations. + + + + + + + + + +REVIEW +BIOTECHNOLOGICAL RELEVANCE + + + +Thiamin metabolism and thiamin diphosphate-dependent enzymes in the yeast Saccharomyces cerevisiae: genetic regulation. + + + + + + + +REVIEW + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-223 AND THR-353 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-223; THR-266 AND SER-526 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-223; THR-336; THR-353 AND THR-522 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Substrate specificity of thiamine pyrophosphate-dependent 2-oxo-acid decarboxylases in Saccharomyces cerevisiae. + + + + + + + + + + +CATALYTIC ACTIVITY +BIOPHYSICOCHEMICAL PROPERTIES + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-212; LYS-233; LYS-269; LYS-332; LYS-484; LYS-505 AND LYS-520 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A novel pathway to produce butanol and isobutanol in Saccharomyces cerevisiae. + + + + + + + + + + +FUNCTION IN BUTANOL PRODUCTION + + + +Catalytic centers in the thiamin diphosphate dependent enzyme pyruvate decarboxylase at 2.4-A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.4 ANGSTROMS) OF 1-556 IN COMPLEX WITH THIAMINE PYROPHOSPHATE + + + +Crystal structure of the thiamin diphosphate-dependent enzyme pyruvate decarboxylase from the yeast Saccharomyces cerevisiae at 2.3-A resolution. + + + + + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.3 ANGSTROMS) OF 1-556 IN COMPLEX WITH THIAMINE PYROPHOSPHATE + + + +The structural basis of substrate activation in yeast pyruvate decarboxylase. A crystallographic and kinetic study. + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.4 ANGSTROMS) OF 1-556 IN COMPLEX WITH THIAMINE PYROPHOSPHATE AND SUBSTRATE ANALOG +SUBSTRATE ACTIVATION + + +Major of three pyruvate decarboxylases (PDC1, PDC5, PDC6) implicated in the nonoxidative conversion of pyruvate to acetaldehyde and carbon dioxide during alcoholic fermentation. Most of the produced acetaldehyde is subsequently reduced to ethanol, but some is required for cytosolic acetyl-CoA production for biosynthetic pathways. The enzyme is also one of five 2-oxo acid decarboxylases (PDC1, PDC5, PDC6, ARO10, and THI3) able to decarboxylate more complex 2-oxo acids (alpha-ketoacids) than pyruvate, which seem mainly involved in amino acid catabolism. Here the enzyme catalyzes the decarboxylation of amino acids, which, in a first step, have been transaminated to the corresponding 2-oxo acids. In a third step, the resulting aldehydes are reduced to alcohols, collectively referred to as fusel oils or alcohols. Its preferred substrates are the transaminated amino acids derived from threonine (2-oxobutanoate), norvaline (2-oxopentanoate), valine (3-methyl-2-oxobutanoate, also alpha-keto-isovalerate), isoleucine ((3S)-3-methyl-2-oxopentanoate, also alpha-keto-beta-methylvalerate), phenylalanine (phenylpyruvate), and tryptophan (3-(indol-3-yl)pyruvate), whereas transaminated leucine is no substrate. In a side-reaction the carbanionic intermediate (or active aldehyde) generated by decarboxylation or by activation of an aldehyde can react with an aldehyde via condensation (or carboligation) yielding a 2-hydroxy ketone, collectively called acyloins. + + + +H(+) + pyruvate = acetaldehyde + CO2 + + + + + + + + + +3-methyl-2-oxobutanoate + H(+) = 2-methylpropanal + CO2 + + + + + + + + + + +(S)-3-methyl-2-oxopentanoate + H(+) = 2-methylbutanal + CO2 + + + + + + + + + + +H(+) + indole-3-pyruvate = CO2 + indole-3-acetaldehyde + + + + + + + + + + +3-phenylpyruvate + H(+) = 2-phenylacetaldehyde + CO2 + + + + + + + + + + +2-oxobutanoate + H(+) = CO2 + propanal + + + + + + + + + +2-oxopentanoate + H(+) = butanal + CO2 + + + + + + + + + +2 acetaldehyde = acetoin + + + + + + + +acetaldehyde + H(+) + pyruvate = acetoin + CO2 + + + + + + + + + + +Mg(2+) + + +Binds 1 Mg(2+) per subunit. + + + +thiamine diphosphate + + +Binds 1 thiamine pyrophosphate per subunit. + + +Allosterically activated by substrate. + + + +2.8 mM for pyruvate +1.0 mM for 2-oxobutanoate +1.5 mM for 2-oxopentanoate +1.5 umol/min/mg enzyme for pyruvate +0.5 umol/min/mg enzyme for 2-oxobutanoate +0.4 umol/min/mg enzyme for 2-oxopentanoate +38 umol/min/mg enzyme for 3-methyl-2-oxobutanoate +15 umol/min/mg enzyme for 4-methyl-2-oxopentanoate +9 umol/min/mg enzyme for 3-methyl-2-oxopentanoate +41 umol/min/mg enzyme for 4-methylthio-2-oxobutanoate + + + +Fermentation; ethanol fermentation. + + +Amino-acid degradation; Ehrlich pathway. + + +Homotetramer. + + + +Cytoplasm + + +Nucleus + + + +Protein expression is strongly induced by high concentrations of fermentable carbon sources and under anaerobic growth conditions and is repressed by ethanol. Protein expression level is also autoregulated through an unknown mechanism. + + +Cleavage of N-terminal methionine and N-terminal acetylation by NAT1/ARD1. + + +Fusel oils and acyloins are important flavor and aroma compounds in yeast-fermented products contributing to the quality of beverages and food, e.g. fusel oils in whiskey, contrary to common believe, seem to alleviate hangover. In general they are desirable at low concentrations, whereas high concentrations may spoil the product. By adjusting growth conditions and substrate their production is sought to be influenced. Due to their broad substrate tolerance pyruvate decarboxylases are important biocatalysts for chemoenzymatic syntheses, both by fermentation and in vitro, e.g. in the production of ephedrine, vitamin E, or phenylethanol (rose flavor). + + +Present with 8966 molecules/cell in log phase SD medium. + + +Belongs to the TPP enzyme family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +Allosteric enzyme +Branched-chain amino acid catabolism +Cytoplasm +Decarboxylase +Direct protein sequencing +Isopeptide bond +Lyase +Magnesium +Metal-binding +Nucleus +Phenylalanine catabolism +Phosphoprotein +Reference proteome +Thiamine pyrophosphate +Tryptophan catabolism +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +D +N + + + + + +A +R + + + + + +A +S + + + + + + + + + + +A +C + + + + + +AP +PQ + + + + + + +A +V + + + + + +V +A + + + + + +D +S + + + + + +T +N + + + + + +I +V + + + + + +APQNLVEQAKLTAATNAKQ +CSTKLG + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSEITLGKYLFERLKQVNVNTVFGLPGDFNLSLLDKIYEVEGMRWAGNANELNAAYAADGYARIKGMSCIITTFGVGELSALNGIAGSYAEHVGVLHVVGVPSISAQAKQLLLHHTLGNGDFTVFHRMSANISETTAMITDIATAPAEIDRCIRTTYVTQRPVYLGLPANLVDLNVPAKLLQTPIDMSLKPNDAESEKEVIDTILALVKDAKNPVILADACCSRHDVKAETKKLIDLTQFPAFVTPMGKGSIDEQHPRYGGVYVGTLSKPEVKEAVESADLILSVGALLSDFNTGSFSYSYKTKNIVEFHSDHMKIRNATFPGVQMKFVLQKLLTTIADAAKGYKPVAVPARTPANAAVPASTPLKQEWMWNQLGNFLQEGDVVIAETGTSAFGINQTTFPNNTYGISQVLWGSIGFTTGATLGAAFAAEEIDPKKRVILFIGDGSLQLTVQEISTMIRWGLKPYLFVLNNDGYTIEKLIHGPKAQYNEIQGWDHLSLLPTFGAKDYETHRVATTGEWDKLTQDKSFNDNSKIRMIEIMLPVFDAPQNLVEQAKLTAATNAKQ + + +P02293 +D6VSK6 +H2B1_YEAST + + +Histone H2B.1 + + +Suppressor of Ty protein 12 + + + +HTB1 +H2B1 +SPT12 +YDR224C +YD9934.09C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Histone H2B genes of yeast encode two different proteins. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Insertion site specificity of the transposon Tn3. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The histones of yeast. The isolation and partial structure of the core histones. + + + + + + + + +PROTEIN SEQUENCE OF 64-89 +PROBABLE CLEAVAGE OF INITIATOR METHIONINE + + + +Coding and noncoding sequences at the 3' end of yeast histone H2B mRNA confer cell cycle regulation. + + + + + + + + +NUCLEOTIDE SEQUENCE [MRNA] OF 115-131 + + + +Steady-state levels of histone acetylation in Saccharomyces cerevisiae. + + + + + + +ACETYLATION + + + +Rad6-dependent ubiquitination of histone H2B in yeast. + + + + + + + + +UBIQUITINATION AT LYS-124 +MUTAGENESIS OF LYS-124 + + + +Highly specific antibodies determine histone acetylation site usage in yeast heterochromatin and euchromatin. + + + + + + + + + + +ACETYLATION AT LYS-12 AND LYS-17 + + + +A role for histone H2B during repair of UV-induced DNA damage in Saccharomyces cerevisiae. + + + + + + + +FUNCTION +MUTAGENESIS OF VAL-48; TYR-87 AND ASN-88 + + + +Gene silencing: trans-histone regulatory pathway in chromatin. + + + + + + + + + + + + + +FUNCTION +MUTAGENESIS OF LYS-124 + + + +Transcriptional activation via sequential histone H2B ubiquitylation and deubiquitylation, mediated by SAGA-associated Ubp8. + + + + + + + + + + + + + + + +UBIQUITINATION +DEUBIQUITINATION BY UBP8 + + + +A conserved RING finger protein required for histone H2B monoubiquitination and cell size control. + + + + + + + + + + + +UBIQUITINATION AT LYS-124 + + + +Bre1, an E3 ubiquitin ligase required for recruitment and substrate selection of Rad6 at a promoter. + + + + + + + + + + + + + + + + + +UBIQUITINATION AT LYS-124 + + + +Mapping global histone acetylation patterns to gene expression. + + + + + + + + +ACETYLATION AT LYS-12 AND LYS-17 + + + +Rad6 plays a role in transcriptional activation through ubiquitylation of histone H2B. + + + + + + + + + + + +UBIQUITINATION BY UBC2 +FUNCTION + + + +Carbohydrates induce mono-ubiquitination of H2B in yeast. + + + + + + + +UBIQUITINATION AT LYS-124 +MUTAGENESIS OF LYS-124 + + + +Global analyses of sumoylated proteins in Saccharomyces cerevisiae. Induction of protein sumoylation by cellular stresses. + + + + + + + + +SUMOYLATION [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY + + + +Rad6-Bre1-mediated histone H2B ubiquitylation modulates the formation of double-strand breaks during meiosis. + + + + + + + + +FUNCTION +UBIQUITINATION AT LYS-124 BY THE UBC2-BRE1 COMPLEX +MUTAGENESIS OF LYS-124 + + + +Sterile 20 kinase phosphorylates histone H2B at serine 10 during hydrogen peroxide-induced apoptosis in S. cerevisiae. + + + + + + + + + + + +PHOSPHORYLATION AT SER-11 +MUTAGENESIS OF SER-11 +FUNCTION + + + +H2B (Ser10) phosphorylation is induced during apoptosis and meiosis in S. cerevisiae. + + + + + + + + + +PHOSPHORYLATION AT SER-11 +FUNCTION + + + +The DNA damage checkpoint response requires histone H2B ubiquitination by Rad6-Bre1 and H3 methylation by Dot1. + + + + + + + + + +FUNCTION +MUTAGENESIS OF LYS-124 + + + +Histone H2B ubiquitylation is associated with elongating RNA polymerase II. + + + + + + + + + + + + +UBIQUITINATION BY THE UBC2-BRE1 COMPLEX +FUNCTION + + + +H2B ubiquitin protease Ubp8 and Sgf11 constitute a discrete functional module within the Saccharomyces cerevisiae SAGA complex. + + + + + + + + + + + + + + +DEUBIQUITINATION BY THE UBP8-SGF11 COMPLEX + + + +The deubiquitylation activity of Ubp8 is dependent upon Sgf11 and its association with the SAGA complex. + + + + + + + + + + +DEUBIQUITINATION BY THE UBP8-SGF11 COMPLEX + + + +Histone sumoylation is a negative regulator in Saccharomyces cerevisiae and shows dynamic interplay with positive-acting histone modifications. + + + + + + + + + + + + + + + + + +SUMOYLATION AT LYS-7; LYS-8; LYS-17 AND LYS-18 +ACETYLATION AT LYS-7; LYS-8 AND LYS-17 +MUTAGENESIS OF 7-LYS-LYS-8 AND 17-LYS-LYS-18 +FUNCTION +IDENTIFICATION BY MASS SPECTROMETRY + + + +A tandem affinity tag for two-step purification under fully denaturing conditions: application in ubiquitin profiling and protein complex identification combined with in vivocross-linking. + + + + + + + + + + + + + + +UBIQUITINATION AT LYS-124 + + + +Identification and verification of lysine propionylation and butyrylation in yeast core histones using PTMap software. + + + + + + + + + +ACETYLATION AT LYS-17; LYS-18; LYS-22 AND LYS-23 +BUTYRYLATION AT LYS-22 +METHYLATION AT LYS-23 AND LYS-38 + + + +Lysine succinylation and lysine malonylation in histones. + + + + + + + + + + + + + +SUCCINYLATION AT LYS-35 AND LYS-47 + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +NMR structure of chaperone Chz1 complexed with histones H2A.Z-H2B. + + + + + + + + + + + + + + +STRUCTURE BY NMR OF 37-131 + + +Core component of nucleosome. Nucleosomes wrap and compact DNA into chromatin, limiting DNA accessibility to the cellular machineries which require DNA as a template. Histones thereby play a central role in transcription regulation, DNA repair, DNA replication and chromosomal stability. DNA accessibility is regulated via a complex set of post-translational modifications of histones, also called histone code, and nucleosome remodeling. + + +The nucleosome is a histone octamer containing two molecules each of H2A, H2B, H3 and H4 assembled in one H3-H4 heterotetramer and two H2A-H2B heterodimers. The octamer wraps approximately 147 bp of DNA. + + + +P02293 + + +P32597 + + +false +3 + + + +Nucleus + + +Chromosome + + + +Monoubiquitinated by the RAD6/UBC2-BRE1 complex to form H2BK123ub1. H2BK123ub1 gives a specific tag for epigenetic transcriptional activation and is also prerequisite for H3K4me and H3K79me formation. H2BK123ub1 also modulates the formation of double-strand breaks during meiosis and is a prerequisite for DNA-damage checkpoint activation. Deubiquitination is performed by UBP8 in presence of SGF11. + + +Phosphorylated by STE20 to form H2BS10ph during progression through meiotic prophase. May be correlated with chromosome condensation. H2BS10ph is also formed after H(2)O(2) treatment, and is a step leading to apoptosis. + + +Acetylated by GCN5, a component of the SAGA complex, to form H2BK11ac and H2BK16ac. H2BK16ac can also be formed by ESA1, a component of the NuA4 histone acetyltransferase (HAT) complex. Acetylation of N-terminal lysines and particularly formation of H2BK11acK16ac has a positive effect on transcription. + + +Sumoylation to form H2BK6su or H2BK7su, and probably also H2BK16su or H2BK17su, occurs preferentially near the telomeres and represses gene transcription. + + +Belongs to the histone H2B family. + + +To ensure consistency between histone entries, we follow the 'Brno' nomenclature for histone modifications, with positions referring to those used in the literature for the 'closest' model organism. Due to slight variations in histone sequences between organisms and to the presence of initiator methionine in UniProtKB/Swiss-Prot sequences, the actual positions of modified amino acids in the sequence generally differ. In this entry the following conventions are used: H2BK6ac = acetylated Lys-7; H2BK6su = sumoylated Lys-7; H2BK7ac = acetylated Lys-8; H2BK7su = sumoylated Lys-8; H2BS10ph = phosphorylated Ser-11; H2BK11ac = acetylated Lys-12; H2BK16ac = acetylated Lys-17; H2BK16su = sumoylated Lys-17; H2BK17su = sumoylated Lys-18; H2BK123ub1 = monoubiquitinated Lys-124. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +Chromosome +Direct protein sequencing +DNA-binding +Isopeptide bond +Methylation +Nucleosome core +Nucleus +Phosphoprotein +Reference proteome +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +KK +AA + + + + + + +S +A + + + + + +S +E + + + + + +KK +AA + + + + + + +V +F + + + + + +Y +F + + + + + +N +S + + + + + +K +R + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSAKAEKKPASKAPAEKKPAAKKTSTSTDGKKRSKARKETYSSYIYKVLKQTHPDTGISQKSMSILNSFVNDIFERIATEASKLAAYNKKSTISAREIQTAVRLILPGELAKHAVSEGTRAVTKYSSSTQA + + +P02294 +D6VQ00 +H2B2_YEAST + + +Histone H2B.2 + + + +HTB2 +H2B2 +YBL002W +YBL0104 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Histone H2B genes of yeast encode two different proteins. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Sequence around the centromere of Saccharomyces cerevisiae chromosome II: similarity of CEN2 to CEN4. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Complete DNA sequence of yeast chromosome II. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The histones of yeast. The isolation and partial structure of the core histones. + + + + + + + + +PROTEIN SEQUENCE OF 64-89 +PROBABLE CLEAVAGE OF INITIATOR METHIONINE + + + +Steady-state levels of histone acetylation in Saccharomyces cerevisiae. + + + + + + +ACETYLATION + + + +Highly specific antibodies determine histone acetylation site usage in yeast heterochromatin and euchromatin. + + + + + + + + + + +ACETYLATION AT LYS-12 AND LYS-17 + + + +Gene silencing: trans-histone regulatory pathway in chromatin. + + + + + + + + + + + + + +FUNCTION +MUTAGENESIS OF LYS-124 + + + +Transcriptional activation via sequential histone H2B ubiquitylation and deubiquitylation, mediated by SAGA-associated Ubp8. + + + + + + + + + + + + + + + +UBIQUITINATION +DEUBIQUITINATION BY UBP8 + + + +A conserved RING finger protein required for histone H2B monoubiquitination and cell size control. + + + + + + + + + + + +UBIQUITINATION AT LYS-124 + + + +Bre1, an E3 ubiquitin ligase required for recruitment and substrate selection of Rad6 at a promoter. + + + + + + + + + + + + + + + + + +UBIQUITINATION AT LYS-124 + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Mapping global histone acetylation patterns to gene expression. + + + + + + + + +ACETYLATION AT LYS-12 AND LYS-17 + + + +Rad6 plays a role in transcriptional activation through ubiquitylation of histone H2B. + + + + + + + + + + + +UBIQUITINATION BY UBC2 +FUNCTION + + + +Carbohydrates induce mono-ubiquitination of H2B in yeast. + + + + + + + +UBIQUITINATION AT LYS-124 +MUTAGENESIS OF LYS-124 + + + +Global analyses of sumoylated proteins in Saccharomyces cerevisiae. Induction of protein sumoylation by cellular stresses. + + + + + + + + +SUMOYLATION [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY + + + +Rad6-Bre1-mediated histone H2B ubiquitylation modulates the formation of double-strand breaks during meiosis. + + + + + + + + +FUNCTION +UBIQUITINATION AT LYS-124 BY THE UBC2-BRE1 COMPLEX +MUTAGENESIS OF LYS-124 + + + +Sterile 20 kinase phosphorylates histone H2B at serine 10 during hydrogen peroxide-induced apoptosis in S. cerevisiae. + + + + + + + + + + + +PHOSPHORYLATION AT SER-11 +MUTAGENESIS OF SER-11 +FUNCTION + + + +H2B (Ser10) phosphorylation is induced during apoptosis and meiosis in S. cerevisiae. + + + + + + + + + +PHOSPHORYLATION AT SER-11 +FUNCTION + + + +Histone H2B ubiquitylation is associated with elongating RNA polymerase II. + + + + + + + + + + + + +UBIQUITINATION BY THE UBC2-BRE1 COMPLEX +FUNCTION + + + +H2B ubiquitin protease Ubp8 and Sgf11 constitute a discrete functional module within the Saccharomyces cerevisiae SAGA complex. + + + + + + + + + + + + + + +DEUBIQUITINATION BY THE UBP8-SGF11 COMPLEX + + + +The deubiquitylation activity of Ubp8 is dependent upon Sgf11 and its association with the SAGA complex. + + + + + + + + + + +DEUBIQUITINATION BY THE UBP8-SGF11 COMPLEX + + + +Histone sumoylation is a negative regulator in Saccharomyces cerevisiae and shows dynamic interplay with positive-acting histone modifications. + + + + + + + + + + + + + + + + + +SUMOYLATION AT LYS-7; LYS-8; LYS-17 AND LYS-18 +ACETYLATION AT LYS-7; LYS-8 AND LYS-17 +MUTAGENESIS OF 7-LYS-LYS-8 AND 17-LYS-LYS-18 +FUNCTION +IDENTIFICATION BY MASS SPECTROMETRY + + + +Phosphorylation by casein kinase 2 regulates Nap1 localization and function. + + + + + + + + + + + +INTERACTION WITH NAP1 +IDENTIFICATION BY MASS SPECTROMETRY + + + +Identification and verification of lysine propionylation and butyrylation in yeast core histones using PTMap software. + + + + + + + + + +ACETYLATION AT LYS-17; LYS-18; LYS-22 AND LYS-23 +BUTYRYLATION AT LYS-22 +METHYLATION AT LYS-23 AND LYS-38 + + + +Lysine succinylation and lysine malonylation in histones. + + + + + + + + + + + + + +SUCCINYLATION AT LYS-35 AND LYS-47 + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Structure of the yeast nucleosome core particle reveals fundamental changes in internucleosome interactions. + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.1 ANGSTROMS) OF NUCLEOSOME CORE COMPLEX +SUBUNIT + + + +The path of DNA in the kinetochore. + + + + + + + + +3D-STRUCTURE MODELING + + +Core component of nucleosome. Nucleosomes wrap and compact DNA into chromatin, limiting DNA accessibility to the cellular machineries which require DNA as a template. Histones thereby play a central role in transcription regulation, DNA repair, DNA replication and chromosomal stability. DNA accessibility is regulated via a complex set of post-translational modifications of histones, also called histone code, and nucleosome remodeling. + + +The nucleosome is a histone octamer containing two molecules each of H2A, H2B, H3 and H4 assembled in one H3-H4 heterotetramer and two H2A-H2B heterodimers. The octamer wraps approximately 147 bp of DNA. Interacts with NAP1. + + + +Nucleus + + +Chromosome + + + +Monoubiquitinated by the RAD6/UBC2-BRE1 complex to form H2BK123ub1. H2BK123ub1 gives a specific tag for epigenetic transcriptional activation and is also prerequisite for H3K4me and H3K79me formation. H2BK123ub1 also modulates the formation of double-strand breaks during meiosis and is a prerequisite for DNA-damage checkpoint activation. Deubiquitination is performed by UBP8 in presence of SGF11. + + +Phosphorylated by STE20 to form H2BS10ph during progression through meiotic prophase. May be correlated with chromosome condensation. H2BS10ph is also formed after H(2)O(2) treatment, and is a step leading to apoptosis. + + +Acetylated by GCN5, a component of the SAGA complex, to form H2BK11ac and H2BK16ac. H2BK16ac can also be formed by ESA1, a component of the NuA4 histone acetyltransferase (HAT) complex. Acetylation of N-terminal lysines and particularly formation of H2BK11acK16ac has a positive effect on transcription. + + +Sumoylation to form H2BK6su or H2BK7su, and probably also H2BK16su or H2BK17su, occurs preferentially near the telomeres and represses gene transcription. + + +Present with 443000 molecules/cell in log phase SD medium. + + +Belongs to the histone H2B family. + + +To ensure consistency between histone entries, we follow the 'Brno' nomenclature for histone modifications, with positions referring to those used in the literature for the 'closest' model organism. Due to slight variations in histone sequences between organisms and to the presence of initiator methionine in UniProtKB/Swiss-Prot sequences, the actual positions of modified amino acids in the sequence generally differ. In this entry the following conventions are used: H2BK6ac = acetylated Lys-7; H2BK6su = sumoylated Lys-7; H2BK7ac = acetylated Lys-8; H2BK7su = sumoylated Lys-8; H2BS10ph = phosphorylated Ser-11; H2BK11ac = acetylated Lys-12; H2BK16ac = acetylated Lys-17; H2BK16su = sumoylated Lys-17; H2BK17su = sumoylated Lys-18; H2BK123ub1 = monoubiquitinated Lys-124. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +Chromosome +Direct protein sequencing +DNA-binding +Isopeptide bond +Methylation +Nucleosome core +Nucleus +Phosphoprotein +Reference proteome +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +KK +AA + + + + + + +S +A + + + + + +S +E + + + + + +KK +AA + + + + + + +K +R + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSSAAEKKPASKAPAEKKPAAKKTSTSVDGKKRSKVRKETYSSYIYKVLKQTHPDTGISQKSMSILNSFVNDIFERIATEASKLAAYNKKSTISAREIQTAVRLILPGELAKHAVSEGTRAVTKYSSSTQA + + +P15108 +D6W010 +HSC82_YEAST + + +ATP-dependent molecular chaperone HSC82 + + +82 kDa heat shock cognate protein + + +Heat shock protein Hsp90 constitutive isoform + + + +HSC82 +YMR186W +YM8010.16 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +hsp82 is an essential protein that is required in higher concentrations for growth of cells at higher temperatures. + + + + + + + + + + +NUCLEOTIDE SEQUENCE +INDUCTION + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XIII. + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Two-dimensional protein map of Saccharomyces cerevisiae: construction of a gene-protein index. + + + + + + + + + + + +PROTEIN SEQUENCE OF 2-8 + +ATCC 204508 / S288c + + + + +A yeast heat shock transcription factor (Hsf1) mutant is defective in both Hsc82/Hsp82 synthesis and spindle pole body duplication. + + + + + + + +INDUCTION + + + +Role of HSP90 in salt stress tolerance via stabilization and regulation of calcineurin. + + + + + + + +FUNCTION +INTERACTION WITH CNA2 + + + +Interaction between the N-terminal and middle regions is essential for the in vivo function of HSP90 molecular chaperone. + + + + + + + + + + + + + + + + + +MUTAGENESIS OF LEU-453 AND GLU-493 + + + +Sgt1 associates with Hsp90: an initial step of assembly of the core kinetochore complex. + + + + + + + + +INTERACTION WITH SGT1 + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The proteome of Saccharomyces cerevisiae mitochondria. + + + + + + + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + +ATCC 76625 / YPH499 + + + + +Phosphorylation by casein kinase 2 regulates Nap1 localization and function. + + + + + + + + + + + +INTERACTION WITH NAP1 +IDENTIFICATION BY MASS SPECTROMETRY + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-653 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Molecular chaperone that promotes the maturation, structural maintenance and proper regulation of specific target proteins involved in cell cycle control and signal transduction such as CNA2. Undergoes a functional cycle that is linked to its ATPase activity (By similarity). Interacts dynamically with various co-chaperones that modulate its substrate recognition, ATPase cycle and chaperone function. Required for growth at high temperatures. + + +Interacts with the co-chaperone SGT1. Interacts directly with the substrate CNA2. Interacts with NAP1. + + + +P15108 + + +Q12449 + + +false +3 + + + +P15108 + + +P08566 + + +false +3 + + + +P15108 + + +P33313 + + +false +2 + + + +P15108 + + +P47103 + + +false +2 + + + +P15108 + + +P53043 + + +false +2 + + + +P15108 + + +P38164 + + +false +2 + + + +P15108 + + +Q02821 + + +false +2 + + + +P15108 + + +P10591 + + +false +2 + + + +P15108 + + +P15705 + + +false +3 + + + +Cytoplasm + + +Mitochondrion + + + +Expressed constitutively at a high level and is moderately induced by high temperatures dependent on transcription factor HSF1. + + +The TPR repeat-binding motif mediates interaction with TPR repeat-containing proteins. + + +Present with 132053 molecules/cell in log phase SD medium. + + +Belongs to the heat shock protein 90 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +ATP-binding +Chaperone +Coiled coil +Cytoplasm +Direct protein sequencing +Mitochondrion +Nucleotide-binding +Phosphoprotein +Reference proteome +Repeat +Stress response + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +L +A + + + + + +E +A + + + + + +K +I + + + + + +L +T + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MAGETFEFQAEITQLMSLIINTVYSNKEIFLRELISNASDALDKIRYQALSDPKQLETEPDLFIRITPKPEEKVLEIRDSGIGMTKAELINNLGTIAKSGTKAFMEALSAGADVSMIGQFGVGFYSLFLVADRVQVISKNNEDEQYIWESNAGGSFTVTLDEVNERIGRGTVLRLFLKDDQLEYLEEKRIKEVIKRHSEFVAYPIQLLVTKEVEKEVPIPEEEKKDEEKKDEDDKKPKLEEVDEEEEEKKPKTKKVKEEVQELEELNKTKPLWTRNPSDITQEEYNAFYKSISNDWEDPLYVKHFSVEGQLEFRAILFIPKRAPFDLFESKKKKNNIKLYVRRVFITDEAEDLIPEWLSFVKGVVDSEDLPLNLSREMLQQNKIMKVIRKNIVKKLIEAFNEIAEDSEQFDKFYSAFAKNIKLGVHEDTQNRAALAKLLRYNSTKSVDELTSLTDYVTRMPEHQKNIYYITGESLKAVEKSPFLDALKAKNFEVLFLTDPIDEYAFTQLKEFEGKTLVDITKDFELEETDEEKAEREKEIKEYEPLTKALKDILGDQVEKVVVSYKLLDAPAAIRTGQFGWSANMERIMKAQALRDSSMSSYMSSKKTFEISPKSPIIKELKKRVDEGGAQDKTVKDLTNLLFETALLTSGFSLEEPTSFASRINRLISLGLNIDEDEETETAPEASTEAPVEEVPADTEMEEVD + + +P10591 +D6VPL2 +HSP71_YEAST + + +Heat shock protein SSA1 + + +Heat shock protein YG100 + + + +SSA1 +YAL005C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The SSA1 and SSA2 genes of the yeast Saccharomyces cerevisiae. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + + + + + +SEQUENCE REVISION TO 208; 418 AND 422 + + + +Sequencing of chromosome I of Saccharomyces cerevisiae: analysis of the 42 kbp SPO7-CENI-CDC15 region. + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204511 / S288c / AB972 + + + + +The nucleotide sequence of chromosome I from Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Protein identifications for a Saccharomyces cerevisiae protein database. + + + + + + + + + + + + + +PROTEIN SEQUENCE OF 92-98 AND 326-342 + +ATCC 204508 / S288c + + + + +Protein expression during exponential growth in 0.7 M NaCl medium of Saccharomyces cerevisiae. + + + + + + + +PROTEIN SEQUENCE OF 187-196 + +ATCC 38531 / Y41 + + + + +Transfer RNA splicing in Saccharomyces cerevisiae: defining the substrates. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 591-642 + + + +Proteome studies of Saccharomyces cerevisiae: identification and characterization of abundant proteins. + + + + + + + + + + + + + + + + +ACETYLATION AT SER-2 + + + +The yeast hsp70 homologue Ssa is required for translation and interacts with Sis1 and Pab1 on translating ribosomes. + + + + + + + + + +INTERACTION WITH PAB1 AND SIS1 + + + +Candida albicans Ssa1/2p is the cell envelope binding protein for human salivary histatin 5. + + + + + + + + + +FUNCTION +INTERACTION WITH HUMAN HTN3 + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Phosphorylation by casein kinase 2 regulates Nap1 localization and function. + + + + + + + + + + + +INTERACTION WITH NAP1 +IDENTIFICATION BY MASS SPECTROMETRY + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-62 AND SER-603 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-551 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-556 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +May play a role in the transport of polypeptides both across the mitochondrial membranes and into the endoplasmic reticulum. A functional difference between SSA1 and SSA2 proteins is expected. SSA1 can participate in the ATP-dependent disassembly of clathrin-coated vesicles. + + +Binds human HTN3/histatin-5, a peptide from saliva, and mediates its fungicidal activity. Interacts with polyadenylate-binding protein PAB1 and Hsp70 chaperone SSA1 on translating ribosomes. Interacts with NAP1. + + + +P10591 + + +P53940 + + +false +2 + + + +P10591 + + +P35190 + + +false +3 + + + +P10591 + + +P38260 + + +false +3 + + + +P10591 + + +P15108 + + +false +2 + + + +P10591 + + +P33416 + + +false +2 + + + +P10591 + + +P02829 + + +false +3 + + + +P10591 + + +P25693 + + +false +3 + + + +P10591 + + +P17157 + + +false +2 + + + +P10591 + + +Q01939 + + +false +2 + + + +P10591 + + +P25294 + + +false +4 + + + +P10591 + + +P32589 + + +false +8 + + + +Cytoplasm + + +Secreted +Cell wall + + + +Present with 269000 molecules/cell in log phase SD medium. + + +Belongs to the heat shock protein 70 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +ATP-binding +Cell wall +Cytoplasm +Direct protein sequencing +Isopeptide bond +Nucleotide-binding +Phosphoprotein +Reference proteome +Secreted +Stress response +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +S +F + + + + + +P +S + + + + + +S +F + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSKAVGIDLGTTYSCVAHFANDRVDIIANDQGNRTTPSFVAFTDTERLIGDAAKNQAAMNPSNTVFDAKRLIGRNFNDPEVQADMKHFPFKLIDVDGKPQIQVEFKGETKNFTPEQISSMVLGKMKETAESYLGAKVNDAVVTVPAYFNDSQRQATKDAGTIAGLNVLRIINEPTAAAIAYGLDKKGKEEHVLIFDLGGGTFDVSLLSIEDGIFEVKATAGDTHLGGEDFDNRLVNHFIQEFKRKNKKDLSTNQRALRRLRTACERAKRTLSSSAQTSVEIDSLFEGIDFYTSITRARFEELCADLFRSTLDPVEKVLRDAKLDKSQVDEIVLVGGSTRIPKVQKLVTDYFNGKEPNRSINPDEAVAYGAAVQAAILTGDESSKTQDLLLLDVAPLSLGIETAGGVMTKLIPRNSTIPTKKSEIFSTYADNQPGVLIQVFEGERAKTKDNNLLGKFELSGIPPAPRGVPQIEVTFDVDSNGILNVSAVEKGTGKSNKITITNDKGRLSKEDIEKMVAEAEKFKEEDEKESQRIASKNQLESIAYSLKNTISEAGDKLEQADKDTVTKKAEETISWLDSNTTASKEEFDDKLKELQDIANPIMSKLYQAGGAPGGAAGGAPGGFPGGAPPAPEAEGPTVEEVD + + +P10592 +D6VXY0 +HSP72_YEAST + + +Heat shock protein SSA2 + + + +SSA2 +YLL024C +L0931 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The SSA1 and SSA2 genes of the yeast Saccharomyces cerevisiae. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The sequence of 32kb on the left arm of yeast chromosome XII reveals six known genes, a new member of the seripauperins family and a new ABC transporter homologous to the human multidrug resistance protein. + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Protein identifications for a Saccharomyces cerevisiae protein database. + + + + + + + + + + + + + +PROTEIN SEQUENCE OF 92-98 AND 326-342 + +ATCC 204508 / S288c + + + + +Protein expression during exponential growth in 0.7 M NaCl medium of Saccharomyces cerevisiae. + + + + + + + +PROTEIN SEQUENCE OF 187-196 + +ATCC 38531 / Y41 + + + + +Proteome studies of Saccharomyces cerevisiae: identification and characterization of abundant proteins. + + + + + + + + + + + + + + + + +ACETYLATION AT SER-2 +PHOSPHORYLATION + + + +Candida albicans Ssa1/2p is the cell envelope binding protein for human salivary histatin 5. + + + + + + + + + +FUNCTION +INTERACTION WITH HUMAN HTN3 + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +A proteomics approach to understanding protein ubiquitination. + + + + + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-556 +IDENTIFICATION BY MASS SPECTROMETRY + +SUB592 + + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Phosphorylation by casein kinase 2 regulates Nap1 localization and function. + + + + + + + + + + + +INTERACTION WITH NAP1 +IDENTIFICATION BY MASS SPECTROMETRY + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-20 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +ACETYLATION [LARGE SCALE ANALYSIS] AT SER-2 +CLEAVAGE OF INITIATOR METHIONINE [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-556 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +May play a role in the transport of polypeptides both across the mitochondrial membranes and into the endoplasmic reticulum. A functional difference between SSA1 and SSA2 proteins is expected. SSA2 can participate in the ATP-dependent disassembly of clathrin-coated vesicles. + + +Binds human HTN3/histatin-5, a peptide from saliva, and mediates its fungicidal activity. Interacts with NAP1. + + + +P10592 + + +P53940 + + +false +2 + + + +P10592 + + +P18900 + + +false +2 + + + +P10592 + + +P22696 + + +false +2 + + + +P10592 + + +P02829 + + +false +2 + + + +P10592 + + +P17505 + + +false +2 + + + +P10592 + + +P25294 + + +false +2 + + + +Cytoplasm + + +Secreted +Cell wall + + + +Present with 364000 molecules/cell in log phase SD medium. + + +Belongs to the heat shock protein 70 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Acetylation +ATP-binding +Cell wall +Cytoplasm +Direct protein sequencing +Isopeptide bond +Nucleotide-binding +Phosphoprotein +Reference proteome +Secreted +Stress response +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSKAVGIDLGTTYSCVAHFSNDRVDIIANDQGNRTTPSFVGFTDTERLIGDAAKNQAAMNPANTVFDAKRLIGRNFNDPEVQGDMKHFPFKLIDVDGKPQIQVEFKGETKNFTPEQISSMVLGKMKETAESYLGAKVNDAVVTVPAYFNDSQRQATKDAGTIAGLNVLRIINEPTAAAIAYGLDKKGKEEHVLIFDLGGGTFDVSLLSIEDGIFEVKATAGDTHLGGEDFDNRLVNHFIQEFKRKNKKDLSTNQRALRRLRTACERAKRTLSSSAQTSVEIDSLFEGIDFYTSITRARFEELCADLFRSTLDPVEKVLRDAKLDKSQVDEIVLVGGSTRIPKVQKLVTDYFNGKEPNRSINPDEAVAYGAAVQAAILTGDESSKTQDLLLLDVAPLSLGIETAGGVMTKLIPRNSTIPTKKSEVFSTYADNQPGVLIQVFEGERAKTKDNNLLGKFELSGIPPAPRGVPQIEVTFDVDSNGILNVSAVEKGTGKSNKITITNDKGRLSKEDIEKMVAEAEKFKEEDEKESQRIASKNQLESIAYSLKNTISEAGDKLEQADKDAVTKKAEETIAWLDSNTTATKEEFDDQLKELQEVANPIMSKLYQAGGAPEGAAPGGFPGGAPPAPEAEGPTVEEVD + + +P0CS90 +D6VWL6 +P12398 +HSP77_YEAST + + +Import motor subunit, mitochondrial +3.6.4.10 + + +Endonuclease SceI 75 kDa subunit +Endo.SceI 75 kDa subunit + + +mtHSP70 + + + +SSC1 +ENS1 +YJR045C +J1639 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +SSC1, an essential member of the yeast HSP70 multigene family, encodes a mitochondrial protein. + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 24657 / D273-10B + + + + +Analysis of a 42.5 kb DNA sequence of chromosome X reveals three tRNA genes and 14 new open reading frames including a gene most probably belonging to the family of ubiquitin-protein ligases. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Complete nucleotide sequence of Saccharomyces cerevisiae chromosome X. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +A precursor protein partly translocated into yeast mitochondria is bound to a 70 kd mitochondrial stress protein. + + + + + + + + + + +PROTEIN SEQUENCE OF 24-38 +SUBCELLULAR LOCATION + +ATCC 24657 / D273-10B + + + + +Multi-site-specific endonucleases and the initiation of homologous genetic recombination in yeast. + + + + + + + + +FUNCTION OF ENDONUCLEASE SCEI + + + +Role of the mitochondrial Hsp70s, Ssc1 and Ssq1, in the maturation of Yfh1. + + + + + + + + + + + +FUNCTION + + + +The Hsp70 peptide-binding domain determines the interaction of the ATPase domain with Tim44 in mitochondria. + + + + + + + + +FUNCTION +INTERACTION WITH TIM44 +MUTAGENESIS OF PRO-442 + + + +Tim14, a novel key component of the import motor of the TIM23 protein translocase of mitochondria. + + + + + + + + + +INTERACTION WITH PAM18 + + + +Pam17 is required for architecture and translocation activity of the mitochondrial protein import motor. + + + + + + + + + + + + + + + +IDENTIFICATION IN THE PAM COMPLEX WITH PAM16; PAM17; PAM18; TIM44 AND MGE1 + + + +Profiling phosphoproteins of yeast mitochondria reveals a role of phosphorylation in assembly of the ATP synthase. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-330 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ATCC 76625 / YPH499 + + + + +Phosphorylation by casein kinase 2 regulates Nap1 localization and function. + + + + + + + + + + + +INTERACTION WITH NAP1 +IDENTIFICATION BY MASS SPECTROMETRY + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Essential component of the PAM complex, a complex required for the translocation of transit peptide-containing proteins from the inner membrane into the mitochondrial matrix in an ATP-dependent manner. Constitutes the ATP-driven core of the motor and binds the precursor preprotein. Required for the import of the processed frataxin homolog YFH1 into the mitochondrion. + + + +ATP + H2O = ADP + H(+) + phosphate + + + + + + + + + + +Component of the PAM complex, at least composed of SSC1 (mtHsp70), MGE1, TIM44, PAM16/TIM16, PAM17 and PAM18/TIM14. In the complex, SSC1 interacts directly with PAM18 and TIM44. Interacts with NAP1. + + + +P0CS90 + + +P38257 + + +false +2 + + + +P0CS90 + + +P53632 + + +false +2 + + + +P0CS90 + + +P06779 + + +false +2 + + + +P0CS90 + + +P38827 + + +false +2 + + + +P0CS90 + + +Q01852 + + +false +3 + + + +P0CS90 + + +P12294 + + +true +2 + + + +Mitochondrion matrix + + + +Belongs to the heat shock protein 70 family. + + +S.cerevisiae displays strain polymorphism with regard to Endo.SceI endouclease activity. This is due to the mitochondrion-encoded, catalytic subunit ENS2, which exhibits strain polymorphism. It can be either present as continuous ORF in the mitochondrial genome (e.g. strain IAM 4274), present but disrupted by the insertion of GC clusters (e.g. strain D273-10B/A), or completely absent in the mitochondrial genome (e.g. strain S288c). Sequences for the 2 subunits ENS2 (AC P12294) and SSC1 (AC P0CS91) for an active Endo.SceI endonuclease can be found in strain IAM 4274. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +ATP-binding +Chaperone +Direct protein sequencing +Hydrolase +Mitochondrion +Nucleotide-binding +Phosphoprotein +Reference proteome +Stress response +Transit peptide + + + + + + + + + + + + + + + + + + + + + + + + +P +S + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MLAAKNILNRSSLSSSFRIATRLQSTKVQGSVIGIDLGTTNSAVAIMEGKVPKIIENAEGSRTTPSVVAFTKEGERLVGIPAKRQAVVNPENTLFATKRLIGRRFEDAEVQRDIKQVPYKIVKHSNGDAWVEARGQTYSPAQIGGFVLNKMKETAEAYLGKPVKNAVVTVPAYFNDSQRQATKDAGQIVGLNVLRVVNEPTAAALAYGLEKSDSKVVAVFDLGGGTFDISILDIDNGVFEVKSTNGDTHLGGEDFDIYLLREIVSRFKTETGIDLENDRMAIQRIREAAEKAKIELSSTVSTEINLPFITADASGPKHINMKFSRAQFETLTAPLVKRTVDPVKKALKDAGLSTSDISEVLLVGGMSRMPKVVETVKSLFGKDPSKAVNPDEAVAIGAAVQGAVLSGEVTDVLLLDVTPLSLGIETLGGVFTRLIPRNTTIPTKKSQIFSTAAAGQTSVEIRVFQGERELVRDNKLIGNFTLAGIPPAPKGVPQIEVTFDIDADGIINVSARDKATNKDSSITVAGSSGLSENEIEQMVNDAEKFKSQDEARKQAIETANKADQLANDTENSLKEFEGKVDKAEAQKVRDQITSLKELVARVQGGEEVNAEELKTKTEELQTSSMKLFEQLYKNDSNNNNNNNGNNAESGETKQ + + +P40576 +D6VVV5 +INA22_YEAST + + +Inner membrane assembly complex subunit 22 + + +INA complex 22 kDa subunit + + + +INA22 +YIR024C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IX. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The proteome of Saccharomyces cerevisiae mitochondria. + + + + + + + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +The INA complex facilitates assembly of the peripheral stalk of the mitochondrial F1Fo-ATP synthase. + + + + + + + + + + + + + + +FUNCTION +INTERACTION WITH INA17 +SUBCELLULAR LOCATION +TOPOLOGY + + +Component of the INA complex (INAC) that promotes the biogenesis of mitochondrial F(1)F(0)-ATP synthase. INAC facilitates the assembly of the peripheral stalk and promotes the assembly of the catalytic F(1)-domain with the membrane-embedded F(0)-domain. + + +Component of the inner membrane assembly (INA) complex, composed of INA17 and INA22. Interacts with a subset of F(1)F(0)-ATP synthase subunits of the F(1)-domain and the peripheral stalk. + + + +P40576 + + +Q02888 + + +false +4 + + + +Mitochondrion inner membrane +Single-pass membrane protein + + + +Present with 589 molecules/cell in log phase SD medium. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Chaperone +Coiled coil +Membrane +Mitochondrion +Mitochondrion inner membrane +Reference proteome +Transit peptide +Transmembrane +Transmembrane helix + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MFMARQVLRNGLFLRSLAPIKITARTVASANAGIKRKSRFDKTMIKPLLLVMIFGSILNAVIAEKRNIIDMERKYKLKLDKLKELIRRVHDNNGKVDFDADDELKLVNLRLGIVGKNATGMKEDETDIVVPKEESLEEIWQSIIDEAKKEVIEKTPDAGVKNKEGIVTDLNVLKDLEKSKKEDEKVYLSGDVHMMMNQPGDLNEIAKEHDKIPKFL + + +P02829 +D6W3D1 +HSP82_YEAST + + +ATP-dependent molecular chaperone HSP82 + + +82 kDa heat shock protein + + +Heat shock protein Hsp90 heat-inducible isoform + + + +HSP82 +HSP90 +YPL240C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Complete sequence of the heat shock-inducible HSP90 gene of Saccharomyces cerevisiae. + + + + + + +NUCLEOTIDE SEQUENCE + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +hsp82 is an essential protein that is required in higher concentrations for growth of cells at higher temperatures. + + + + + + + + + + +INDUCTION + + + +Hsp90 chaperonins possess ATPase activity and bind heat shock transcription factors and peptidyl prolyl isomerases. + + + + + + + +ATPASE ACTIVITY + + + +Isolation of Hsp90 mutants by screening for decreased steroid receptor function. + + + + + + + +MUTAGENESIS OF GLY-313; GLU-431; THR-525; ALA-576 AND ARG-579 + + + +Conservation of Hsp90 macromolecular complexes in Saccharomyces cerevisiae. + + + + + + +INTERACTION WITH STI1 AND CPR6 + + + +Mutational analysis of Hsp90 function: interactions with a steroid receptor and a protein kinase. + + + + + + + +MUTAGENESIS OF THR-22; ALA-41; GLY-81; THR-101; GLY-170; GLY-313; GLU-381 AND ALA-587 + + + +A cyclophilin function in Hsp90-dependent signal transduction. + + + + + + + + + + +INTERACTION WITH CPR6 AND CPR7 + + + +A yeast heat shock transcription factor (Hsf1) mutant is defective in both Hsc82/Hsp82 synthesis and spindle pole body duplication. + + + + + + + +INDUCTION + + + +In vivo function of Hsp90 is dependent on ATP binding and ATP hydrolysis. + + + + + + + + + + +INTERACTION WITH SBA1 + + + +SBA1 encodes a yeast hsp90 cochaperone that is homologous to vertebrate p23 proteins. + + + + + + + + + +INTERACTION WITH SBA1 +MUTAGENESIS OF ALA-97 AND SER-485 + + + +Molecular mechanism governing heme signaling in yeast: a higher-order complex mediates heme regulation of the transcriptional activator HAP1. + + + + + + + + +INTERACTION WITH HAP1 + + + +CNS1 encodes an essential p60/Sti1 homolog in Saccharomyces cerevisiae that suppresses cyclophilin 40 mutations and interacts with Hsp90. + + + + + + + + +INTERACTION WITH CNS1 + + + +The yeast Hsp110 family member, Sse1, is an Hsp90 cochaperone. + + + + + + + + +INTERACTION WITH SSE1 + + + +Hsp90 binds and regulates Gcn2, the ligand-inducible kinase of the alpha subunit of eukaryotic translation initiation factor 2. + + + + + + + +INTERACTION WITH GCN2 + + + +Structure of TPR domain-peptide complexes: critical elements in the assembly of the Hsp70-Hsp90 multichaperone machine. + + + + + + + + + + + + + +BINDING TO TPR REPEATS + + + +The ATPase cycle of Hsp90 drives a molecular 'clamp' via transient dimerization of the N-terminal domains. + + + + + + + + + + + + + + +ATPASE ACTIVITY +MUTAGENESIS OF ALA-107 + + + +The molecular chaperone Cdc37 is required for Ste11 function and pheromone-induced cell cycle arrest. + + + + + + + + +INTERACTION WITH CDC37 AND STE11 + + + +Activation of the ATPase activity of hsp90 by the stress-regulated cochaperone aha1. + + + + + + + + + + + + + + + + + + + + + +INTERACTION WITH AHA1 AND HCH1 + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The ATPase-dependent chaperoning activity of Hsp90a regulates thick filament formation and integration during skeletal muscle myofibrillogenesis. + + + + + + + + + + + + + + + + + + +MUTAGENESIS OF GLY-83 + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A molecular clamp in the crystal structure of the N-terminal domain of the yeast Hsp90 chaperone. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (1.8 ANGSTROMS) + + + +Identification and structural characterization of the ATP/ADP-binding site in the Hsp90 molecular chaperone. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (1.85 ANGSTROMS) OF 2-214 IN COMPLEX WITH ADP AND GELDANAMYCIN + + + +Structural and functional analysis of the middle segment of hsp90: implications for ATP hydrolysis and client protein and cochaperone interactions. + + + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.5 ANGSTROMS) OF 273-560 +MUTAGENESIS OF PHE-349; ARG-380 AND GLN-384 + + + +The Mechanism of Hsp90 regulation by the protein kinase-specific cochaperone p50(cdc37). + + + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.3 ANGSTROMS) OF 1-214 IN COMPLEX WITH HUMAN CDC37 + + + +Structural basis for recruitment of the ATPase activator Aha1 to the Hsp90 chaperone machinery. + + + + + + +X-RAY CRYSTALLOGRAPHY (2.15 ANGSTROMS) OF 272-530 IN COMPLEX WITH AHA1 +MUTAGENESIS OF LYS-387 + + + + + + + + + + + + + + + + + + +ERRATUM OF PUBMED:14739935 + + + +Hsp90 is regulated by a switch point in the C-terminal domain. + + + + + + + + + + + + +MUTAGENESIS OF ALA-577 + + + +Structural basis for inhibition of the Hsp90 molecular chaperone by the antitumor antibiotics radicicol and geldanamycin. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.50 ANGSTROMS) OF 1-214 IN COMPLEX WITH RADICICOL +ATPASE ACTIVITY + + + +Inhibition of Hsp90 with synthetic macrolactones: synthesis and structural and biological evaluation of ring and conformational analogs of radicicol. + + + + + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (1.50 ANGSTROMS) OF 1-214 IN COMPLEX WITH INHIBITORS +FUNCTION + + + +Intrinsic inhibition of the Hsp90 ATPase activity. + + + + + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (1.94 ANGSTROMS) OF 25-210 +ATPASE ACTIVITY + + + +Crystal structure of an Hsp90-nucleotide-p23/Sba1 closed chaperone complex. + + + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.10 ANGSTROMS) OF 1-677 IN COMPLEX WITH SBA1 AND ATP +SUBUNIT + + + +Molecular characterization of macbecin as an Hsp90 inhibitor. + + + + + + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.40 ANGSTROMS) OF 1-219 IN COMPLEX WITH INHIBITOR +ATPASE ACTIVITY + + + +Structural basis of the radicicol resistance displayed by a fungal hsp90. + + + + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (1.60 ANGSTROMS) OF 1-220 IN COMPLEX WITH ADP; GELDANAMYCIN AND RADICICOL + + +Molecular chaperone that promotes the maturation, structural maintenance and proper regulation of specific target proteins involved in cell cycle control and signal transduction. Undergoes a functional cycle that is linked to its ATPase activity. The nucleotide-free form of the dimer is found in an open conformation in which the N-termini are not dimerized and the complex is ready for client protein binding. Binding of ATP induces large conformational changes, resulting in the formation of a ring-like closed structure in which the N-terminal domains associate intramolecularly with the middle domain and also dimerize with each other, stimulating their intrinsic ATPase activity and acting as a clamp on the substrate. Finally, ATP hydrolysis results in the release of the substrate. This cycle probably induces conformational changes in the client proteins, thereby causing their activation. Interacts dynamically with various co-chaperones that modulate its substrate recognition, ATPase cycle and chaperone function. Required for growth at high temperatures. + + +Inhibited by geldanamycin, macbecin I and radicicol, which bind to the ATP-binding pocket. Co-chaperones CDC37, SBA1 and STI1 reduce ATPase activity. Co-chaperones AHA1 and HCH1 increase ATPase activity. + + +Homodimer. Interacts with the co-chaperones AHA1, CDC37, CNS1, CPR6, CPR7, HCH1, SBA1, SSE1 and STI1. CNS1, CPR6, CPR7 and STI1. Interacts directly with the substrates GCN2, HAP1 and STE11. + + + +P02829 + + +P60010 + + +false +2 + + + +P02829 + + +P27616 + + +false +2 + + + +P02829 + + +Q12449 + + +false +13 + + + +P02829 + + +P53858 + + +false +2 + + + +P02829 + + +P06101 + + +false +3 + + + +P02829 + + +P33313 + + +false +6 + + + +P02829 + + +P53691 + + +false +13 + + + +P02829 + + +P47103 + + +false +6 + + + +P02829 + + +P02829 + + +false +11 + + + +P02829 + + +P43581 + + +false +2 + + + +P02829 + + +P27705 + + +false +3 + + + +P02829 + + +P35198 + + +false +3 + + + +P02829 + + +P32832 + + +false +2 + + + +P02829 + + +P38768 + + +false +4 + + + +P02829 + + +Q03407 + + +false +2 + + + +P02829 + + +P53043 + + +false +8 + + + +P02829 + + +P32264 + + +false +3 + + + +P02829 + + +P28707 + + +false +7 + + + +P02829 + + +P41811 + + +false +2 + + + +P02829 + + +Q08446 + + +false +2 + + + +P02829 + + +Q00772 + + +false +5 + + + +P02829 + + +P41808 + + +false +3 + + + +P02829 + + +P10591 + + +false +3 + + + +P02829 + + +P10592 + + +false +2 + + + +P02829 + + +P32589 + + +false +3 + + + +P02829 + + +P15705 + + +false +18 + + + +P02829 + + +P25638 + + +false +10 + + + +P02829 + + +Q12407 + + +false +2 + + + +P02829 + + +P0CS82 + + +true +3 + + + +P02829 + + +P04637 + + +true +8 + + + +Cytoplasm + + + +Expressed constitutively and induced by high temperatures dependent on transcription factor HSF1. According to PubMed:2674684, it is constitutively expressed at low levels, however, due to the specificity of the antibody, this result is unsure. + + +The TPR repeat-binding motif mediates interaction with TPR repeat-containing proteins like the co-chaperones AHA1, CDC37, CNS1, CPR6, CPR7, HCH1, SBA1, SSE1 and STI1. CNS1, CPR6, CPR7 and STI1. + + +Present with 444943 molecules/cell in log phase SD medium. + + +Belongs to the heat shock protein 90 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + 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+T + + + + + +A +S + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + 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+ + +Heat shock protein homolog SSE1 + + +Chaperone protein MSI3 + + + +SSE1 +MSI3 +YPL106C +LPG3C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Isolation and characterization of SSE1 and SSE2, new members of the yeast HSP70 multigene family. + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [MRNA] + +ATCC 204626 / S288c / A364A + + + + +MSI3, a multicopy suppressor of mutants hyperactivated in the RAS-cAMP pathway, encodes a novel HSP70 protein of Saccharomyces cerevisiae. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Protein identifications for a Saccharomyces cerevisiae protein database. + + + + + + + + + + + + + +PROTEIN SEQUENCE OF 100-110 + +ATCC 204508 / S288c + + + + +Protein expression during exponential growth in 0.7 M NaCl medium of Saccharomyces cerevisiae. + + + + + + + +PROTEIN SEQUENCE OF 330-339 + +ATCC 38531 / Y41 + + + + +Proteome studies of Saccharomyces cerevisiae: identification and characterization of abundant proteins. + + + + + + + + + + + + + + + + +ACETYLATION AT SER-2 + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-242 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-660 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-195 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Has a calcium-dependent calmodulin-binding activity. Required for normal growth at various temperatures. + + + +P32589 + + +P02829 + + +false +3 + + + +P32589 + + +P25294 + + +false +2 + + + +P32589 + + +P10591 + + +false +8 + + + +P32589 + + +P11484 + + +false +2 + + + +P32589 + + +P08107 + + +true +2 + + + +Cytoplasm + + + +Increases a few-fold upon upshift to 37 degrees Celsius. + + +Present with 71700 molecules/cell in log phase SD medium. + + +Belongs to the heat shock protein 70 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +ATP-binding +Calmodulin-binding +Chaperone +Cytoplasm +Direct protein sequencing +Isopeptide bond +Nucleotide-binding +Phosphoprotein +Reference proteome +Stress response +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +TA +NT + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSTPFGLDLGNNNSVLAVARNRGIDIVVNEVSNRSTPSVVGFGPKNRYLGETGKNKQTSNIKNTVANLKRIIGLDYHHPDFEQESKHFTSKLVELDDKKTGAEVRFAGEKHVFSATQLAAMFIDKVKDTVKQDTKANITDVCIAVPPWYTEEQRYNIADAARIAGLNPVRIVNDVTAAGVSYGIFKTDLPEGEEKPRIVAFVDIGHSSYTCSIMAFKKGQLKVLGTACDKHFGGRDFDLAITEHFADEFKTKYKIDIRENPKAYNRILTAAEKLKKVLSANTNAPFSVESVMNDVDVSSQLSREELEELVKPLLERVTEPVTKALAQAKLSAEEVDFVEIIGGTTRIPTLKQSISEAFGKPLSTTLNQDEAIAKGAAFICAIHSPTLRVRPFKFEDIHPYSVSYSWDKQVEDEDHMEVFPAGSSFPSTKLITLNRTGDFSMAASYTDITQLPPNTPEQIANWEITGVQLPEGQDSVPVKLKLRCDPSGLHTIEEAYTIEDIEVEEPIPLPEDAPEDAEQEFKKVTKTVKKDDLTIVAHTFGLDAKKLNELIEKENEMLAQDKLVAETEDRKNTLEEYIYTLRGKLEEEYAPFASDAEKTKLQGMLNKAEEWLYDEGFDSIKAKYIAKYEELASLGNIIRGRYLAKEEEKKQAIRSKQEASQMAAMAEKLAAQRKAEAEKKEEKKDTEGDVDMD + + +P46997 +D6VW25 +JJJ2_YEAST + + +J protein JJJ2 + + + +JJJ2 +YJL162C +J0549 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Complete nucleotide sequence of Saccharomyces cerevisiae chromosome X. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION +SEQUENCE REVISION TO 433 AND 483 + +ATCC 204508 / S288c + + + + +Sequencing and comparison of yeast species to identify genes and regulatory elements. + + + + + + + + + + +IDENTIFICATION OF PROBABLE SEQUENCE ERRORS + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The J-protein family: modulating protein assembly, disassembly and translocation. + + + + + + + + + + +GENE NAME + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-229 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Cytoplasm + + +Nucleus + + + +Present with 184 molecules/cell in log phase SD medium. + + + + + +Truncated C-terminus. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Chaperone +Cytoplasm +Nucleus +Phosphoprotein +Reference proteome + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSQVIEPQLDRTTYYSILGLTSNATSSEVHKSYLKLARLLHPDKTKSDKSEELFKAVVHAHSILTDEDQKLRYDRDLKIKGLHTYQPKKNCHIFKTKAKESQGASPTLGQSEAYHRQNKPYEQQPYGFGVGKKMTSSSKSKVPIFKSFNLKSYQRNHYYSSKKERKHGSPDIDSLFHETNGASKVRMTDAGKMDTNSQFQEIWEILGKNAYTHKSYSEDPNSCLGSALSDHEEEEEAGKQQQQQQQQQQQQQHYGMTSKSSSPDEEKKNNKEPKRESRVSPEENGEEETGHKQFKLPKTSTFSSGSHDSNLQSPFYNHEYRHYARSKFECKNQFRKSVSPIKEIPATTSANEGWNILRDIIEKLNISNVDDRNKDLLFRRDEIGDKNHSDSIDIENLSIKEPKGMKRRKKDDISLEELFQSLPREKDYFMMDAINDSLESINLFKKPKTTQSHEQGGTFAQAESNRAKFKPLLEQCGITPEILDLEIPEIPEFDAVADLETLKLNVQLFNNQCNKLKETIHQVSLQRLRADTQFSDMLTQKQSIMVWKTYLEFDKSLMDKLNILQERQMQVIKIFSERCDGKV + + +Q12230 +D6W408 +LSP1_YEAST + + +Sphingolipid long chain base-responsive protein LSP1 + + + +LSP1 +YPL004C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + + + + + + +PROTEIN SEQUENCE OF 36-43; 166-175; 197-207 AND 222-238 +IDENTIFICATION BY MASS SPECTROMETRY + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Pil1p and Lsp1p negatively regulate the 3-phosphoinositide-dependent protein kinase-like kinase Pkh1p and downstream signaling pathways Pkc1p and Ypk1p. + + + + + + + + +FUNCTION +PHOSPHORYLATION BY PKH1 AND PHK2 + + + +Quantitative phosphoproteomics applied to the yeast pheromone signaling pathway. + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-233 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +YAL6B + + + + +Eisosomes mark static sites of endocytosis. + + + + + + + + + + + +SUBCELLULAR LOCATION + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-233 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-233 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of the glycoproteome in Saccharomyces cerevisiae reveals new roles for protein glycosylation in eukaryotes. + + + + + + + + + + + +GLYCOSYLATION [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-233 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Together with PIL1, main component of eisosomes, structures at the cell periphery underneath the plasma membrane that mark the site of endocytosis. Negative regulator of cell wall integrity (CWI) in unstressed cells, probably by inhibiting protein kinase PKH1/PHK2 activity and regulating their downstream CWI pathways PKC1-MAP kinase pathway and protein kinase YPK1 pathway. Activity may be regulated by the transient increase of sphingolipid long chain bases (LCBs) during heat stress. + + + +Q12230 + + +P53252 + + +false +6 + + + +Cytoplasm +Cell cortex + +Localizes at eisosomes, structures which colocalize with sites of protein and lipid endocytosis. + + +Phosphorylated by PKH1 and PKH2. Phosphorylation is stimulated by sphingolipid long chain bases (LCBs). + + +N-glycosylated. + + +Present with 104485 molecules/cell in log phase SD medium. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +Glycoprotein +Phosphoprotein +Reference proteome + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MHRTYSLRNQRAPTAAELQAPPPPPSSTKSKFFGKASIASSFRKNAAGNFGPELARKLSQLVKTEKGVLRAMEVVASERREAAKQLSLWGADNDDDVSDVTDKLGVLIYELGELQDQFIDKYDQYRVTLKSIRNIEASVQPSRDRKEKITDEIAHLKYKDPQSTKIPVLEQELVRAEAESLVAEAQLSNITREKLKAAYSYMFDSLRELSEKFALIAGYGKALLELLDDSPVTPGEARPAYDGYEASRQIIMDAESALESWTLDMAAVKPTLSFHQTVDDVYEDEDGEEEEEPEIQNGDIPGQVVEEEEVEWTTEVPVDDEAHEADHHVSQNGHTSGSENI + + +Q12117 +D6VS17 +MRH1_YEAST + + +Protein MRH1 + + +Membrane protein related to HSP30 + + + +MRH1 +YDR033W +YD9673.03 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Expression and subcellular localization of a membrane protein related to Hsp30p in Saccharomyces cerevisiae. + + + + + + + + +SUBCELLULAR LOCATION + + + +Subproteomics: identification of plasma membrane proteins from the yeast Saccharomyces cerevisiae. + + + + + + + + + + + +SUBCELLULAR LOCATION + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The proteome of Saccharomyces cerevisiae mitochondria. + + + + + + + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + +ATCC 76625 / YPH499 + + + + +Quantitative phosphoproteomics applied to the yeast pheromone signaling pathway. + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-289 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +YAL6B + + + + +A global topology map of the Saccharomyces cerevisiae membrane proteome. + + + + + + + + + +TOPOLOGY [LARGE SCALE ANALYSIS] + +ATCC 208353 / W303-1A + + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-289 AND THR-295 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +Profiling phosphoproteins of yeast mitochondria reveals a role of phosphorylation in assembly of the ATP synthase. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-289 AND THR-295 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ATCC 76625 / YPH499 + + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-289; THR-295 AND SER-299 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-289 AND THR-295 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-289; THR-295 AND SER-299 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Cell membrane +Multi-pass membrane protein + + +Mitochondrion + + +Bud + +Localized primarily to the plasma membrane. Also found at the buds. + + +Present with 182000 molecules/cell in log phase SD medium. + + +Belongs to the archaeal/bacterial/fungal opsin family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cell membrane +Membrane +Mitochondrion +Phosphoprotein +Reference proteome +Transmembrane +Transmembrane helix + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSTFETLIKRGGNEAIKINPPTGADFHITSRGSDWFWTCFCCYLLFGLILTFLMFRKPVNDRFFYLTGIAPNFFMCIAYFTMASNLGWIPVKAKYNHVQTSTQKEHPGYRQIFYSRFVGWFLALPWPIIQICMLAGTPFWQMAFNVCITEFFTVCWLIAACVHSTYKWGYYTIGLGAAIVVSISVMTTSYNLVKQRDNDIRLTFLVFFSIIMFLWIIAYPTCFGITDGGNVLQPDSAGIFYGIIDLILMCFIPTLLVPIANHFGADKLGYHFGPSDAEAVMAPKAPVASPRPAATPNLSKDKKKKSKKSKKSKKSKKSEE + + +Q06820 +D6W485 +MDM36_YEAST + + +Mitochondrial distribution and morphology protein 36 + + + +MDM36 +YPR083W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Genetic basis of mitochondrial function and morphology in Saccharomyces cerevisiae. + + + + + + + + + + + + +FUNCTION + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-42 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-42 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Involved in mitochondrial distribution and morphology. + + +Present with 414 molecules/cell in log phase SD medium. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Phosphoprotein +Reference proteome + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MDENGTVKPGYELKGLNSGNSRSNMDKDPIVSKFHRAGLNDSADEEDTDINGNRNTSWITSMISEEKRKVEGKSMLNDEEDLHLSKATLNKCDALVKILADIIKLEFVIHQSWYIRSLHKSVLIQFEVETSGGNKNSAGDSGDDDDDNHNGNLDDSFYKDLSLKCIKKCEKSSLALESLSRDIDQIRDFIMSNTIEDNRVDRLLQNSMTLLLECWIYSMKRLRRLRMKIAGIFVRSKLLLIDHELVTIWHFLQEQNEHETVNNENELKLAETIKSYRAFIKIFIQQLEDSESGSPSSSLFEECLHVFLDIESMYNSLNLNWLLNENKALQERLLSPSSTSENDHTNNLPVIDETKEIEDISSFVNSIVDASMLTHDLTPINSSDSDNLSNGEIDRLDGRRLSSSTSDMSLMMQRTSLQKQLPSLLTAFNNARRLEQELQNACKVNDNKHSTKDTDSNIRRNEHAMSSSVSSIISQNSTLASPSPPMSSSFISTAPSQSSSRMSTLPLSPSSSLLESQSQTLKNNMSQWLNQSRSGLNGTKLIPTNHIGFHSNVLNTLYGIGGGPVSKSYKSNQPSSQNT + + +O14467 +D6W2Z8 +Q7LGJ8 +Q86ZS7 +MBF1_YEAST + + +Multiprotein-bridging factor 1 + + +Suppressor of frameshift mutations protein 13 + + + +MBF1 +SUF13 +YOR298C-A + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Yeast coactivator MBF1 mediates GCN4-dependent transcriptional activation. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] +INTERACTION WITH GCN4 AND TBP +MUTAGENESIS OF ASP-112 +FUNCTION + +KT130 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Reinvestigation of the Saccharomyces cerevisiae genome annotation by comparison to the genome of a related fungus: Ashbya gossypii. + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 1-58 + +ATCC 204511 / S288c / AB972 + + + + + + + + + +PROTEIN SEQUENCE OF 76-83; 103-117 AND 138-149 +IDENTIFICATION BY MASS SPECTROMETRY + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 94-151 + +ATCC 204508 / S288c + + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Quantitative phosphoproteomics applied to the yeast pheromone signaling pathway. + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-143 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +YAL6B + + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-143 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-143 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-143 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-143 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Transcriptional coactivator that stimulates GCN4-dependent transcriptional activity by bridging the DNA-binding region of GCN4 and TBP (SPT15), thereby recruiting TBP to GCN4-bound promoters. + + +Interacts with TBP and the transcription factor GCN4. + + + +Cytoplasm + + +Nucleus + + + +Present with 47277 molecules/cell in log phase SD medium. + + +Belongs to the MBF1 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +DNA-binding +Nucleus +Phosphoprotein +Reference proteome +Transcription +Transcription regulation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +D +A + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSDWDTNTIIGSRARAGGSGPRANVARSQGQINAARRQGLVVSVDKKYGSTNTRGDNEGQRLTKVDRETDIVKPKKLDPNVGRAISRARTDKKMSQKDLATKINEKPTVVNDYEAARAIPNQQVLSKLERALGVKLRGNNIGSPLGAPKKK + + +P00560 +D6VR21 +PGK_YEAST + + +Phosphoglycerate kinase +2.7.2.3 + + + +PGK1 +YCR012W +YCR12W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The primary structure of the Saccharomyces cerevisiae gene for 3-phosphoglycerate kinase. + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The complete sequence of a 10.8 kb segment distal of SUF2 on the right arm of chromosome III from Saccharomyces cerevisiae reveals seven open reading frames including the RVS161, ADP1 and PGK genes. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The complete DNA sequence of yeast chromosome III. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Structural studies on yeast 3-phosphoglycerate kinase. Linear arrangement of the CNBr fragments, partial amino acid sequence of the inner part of the polypeptide chain, and analyses of the N-terminal domain of the protein. + + + + + + + + + + + + +PROTEIN SEQUENCE OF 173-202 AND 238-270 + + + +The complete amino acid sequence of yeast phosphoglycerate kinase. + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 282-416 + + + +Conservation of high efficiency promoter sequences in Saccharomyces cerevisiae. + + + + + + + + + + + + + + +PRELIMINARY PROTEIN SEQUENCE OF 268-398 +NUCLEOTIDE SEQUENCE OF 2-7 + + + +Two-dimensional electrophoretic separation of yeast proteins using a non-linear wide range (pH 3-10) immobilized pH gradient in the first dimension; reproducibility and evidence for isoelectric focusing of alkaline (pI > 7) proteins. + + + + + + + +PROTEIN SEQUENCE OF 150-161; 198-209 AND 245-256 + +ATCC 44827 / SKQ2N + + + + +Characterisation of yeast phosphoglycerate kinase modified by mutagenesis at residue 21. + + + + + + + + + + +MUTAGENESIS OF ARG-22 + + + +Yeast mitochondrial dehydrogenases are associated in a supramolecular complex. + + + + + + + + + + + +SUBCELLULAR LOCATION + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Quantitative phosphoproteomics applied to the yeast pheromone signaling pathway. + + + + + + + + + + + + +ACETYLATION [LARGE SCALE ANALYSIS] AT SER-2 +CLEAVAGE OF INITIATOR METHIONINE [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +YAL6B + + + + +Toward the complete yeast mitochondrial proteome: multidimensional separation techniques for mitochondrial proteomics. + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-154; THR-331 AND THR-392 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-130 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-93; THR-203; THR-241 AND THR-331 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-110; SER-172; THR-298; SER-318; THR-331 AND THR-392 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +ACETYLATION [LARGE SCALE ANALYSIS] AT SER-2 +CLEAVAGE OF INITIATOR METHIONINE [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-82; LYS-197; LYS-258; LYS-274 AND LYS-302 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sequence and structure of yeast phosphoglycerate kinase. + + + + + + + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.5 ANGSTROMS) IN COMPLEX WITH SUBSTRATE AND ATP ANALOG + + + +Structure of the R65Q mutant of yeast 3-phosphoglycerate kinase complexed with Mg-AMP-PNP and 3-phospho-D-glycerate. + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.4 ANGSTROMS) OF MUTANT GLN-66 IN COMPLEX WITH SUBSTRATE AND ATP ANALOG + + + +(2R)-3-phosphoglycerate + ATP = (2R)-3-phospho-glyceroyl phosphate + ADP + + + + + + + + + +Carbohydrate degradation; glycolysis; pyruvate from D-glyceraldehyde 3-phosphate: step 2/5. + + +Monomer. + + + +Cytoplasm + + +Mitochondrion + + + +Present with 314000 molecules/cell in log phase SD medium. + + +Belongs to the phosphoglycerate kinase family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +ATP-binding +Cytoplasm +Direct protein sequencing +Glycolysis +Isopeptide bond +Kinase +Mitochondrion +Nucleotide-binding +Phosphoprotein +Reference proteome +Transferase +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +R +K + + + + + +R +M + + + + + +G +S + + + + + +E +I + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSLSSKLSVQDLDLKDKRVFIRVDFNVPLDGKKITSNQRIVAALPTIKYVLEHHPRYVVLASHLGRPNGERNEKYSLAPVAKELQSLLGKDVTFLNDCVGPEVEAAVKASAPGSVILLENLRYHIEEEGSRKVDGQKVKASKEDVQKFRHELSSLADVYINDAFGTAHRAHSSMVGFDLPQRAAGFLLEKELKYFGKALENPTRPFLAILGGAKVADKIQLIDNLLDKVDSIIIGGGMAFTFKKVLENTEIGDSIFDKAGAEIVPKLMEKAKAKGVEVVLPVDFIIADAFSADANTKTVTDKEGIPAGWQGLDNGPESRKLFAATVAKAKTIVWNGPPGVFEFEKFAAGTKALLDEVVKSSAAGNTVIIGGGDTATVAKKYGVTDKISHVSTGGGASLELLEGKELPGVAFLSEKK + + +Q05568 +D6VSP9 +E9P8T2 +PEX10_YEAST + + +Peroxisome biogenesis factor 10 + + +Peroxin-10 + + +Peroxisomal biogenesis factor 10 + + +Peroxisome assembly protein 10 + + + +PEX10 +PAS4 +YDR265W +D9954.8 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Somewhat implicated in the biogenesis of peroxisomes. + + + +Q05568 + + +Q04370 + + +false +12 + + + +Q05568 + + +P80667 + + +false +7 + + + +Q05568 + + +P32800 + + +false +14 + + + +Peroxisome membrane +Peripheral membrane protein + + + +Belongs to the pex2/pex10/pex12 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Membrane +Metal-binding +Peroxisome +Peroxisome biogenesis +Reference proteome +Zinc +Zinc-finger + + + + + + + + + + + + + +V +A + + + + + + + + + + + +MKNDNKLQKEALMRLSQLRFPFADAPSIVQAHQKDEQIQGLLIMKVTELCKLIKSQLFVNSYPKELSIFAKLLYLLFTTGRRGRTLGEEYVDLTYTNRKGTRLAGRLKMIVFAFAYPLCPYFITKLYKKIMKNNKESKIEDTESVAAFCKGLLDFILDVHMTLFYFKGAFYSISKRIFGMRYVFKHILSKNEANFREEGSQKYKVLGYILLAQNVMKWYPVLTSTLGSWIYGRKRTNDSITRSSVGLQERSEHESIEGIPKESQLTHINLSDKNQLPFIPEASRKCILCLMNMSDPSCAPCGHLFCWSCLMSWCKERPECPLCRQHCQPQEILVLRQ + + +P00950 +D6VX45 +Q02117 +PMG1_YEAST + + +Phosphoglycerate mutase 1 +PGAM 1 +5.4.2.11 + + +BPG-dependent PGAM 1 + + +MPGM 1 + + +Phosphoglyceromutase 1 + + + +GPM1 +GPM +YKL152C +YKL607 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The amino acid sequence of yeast phosphoglycerate mutase. + + + + + + + +PRELIMINARY PROTEIN SEQUENCE OF 2-247 + + + +Sequence of the gene encoding phosphoglycerate mutase from Saccharomyces cerevisiae. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Sequence and localization of the gene encoding yeast phosphoglycerate mutase. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +DNA sequencing of a 36.2 kb fragment located between the FAS1 and LAP loci of chromosome XI of Saccharomyces cerevisiae. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Complete DNA sequence of yeast chromosome XI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transcriptional control of yeast phosphoglycerate mutase-encoding gene. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 1-56 + + + + + + + + + + +PROTEIN SEQUENCE OF 2-11 + +ATCC 26786 / X2180-1A + + + + +Two-dimensional electrophoretic separation of yeast proteins using a non-linear wide range (pH 3-10) immobilized pH gradient in the first dimension; reproducibility and evidence for isoelectric focusing of alkaline (pI > 7) proteins. + + + + + + + +PROTEIN SEQUENCE OF 110-114 AND 204-217 + +ATCC 44827 / SKQ2N + + + + +Development of a mutagenesis, expression and purification system for yeast phosphoglycerate mutase. Investigation of the role of active-site His181. + + + + + + + +FUNCTION +CATALYTIC ACTIVITY +MUTAGENESIS OF HIS-182 +BIOPHYSICOCHEMICAL PROPERTIES + + + +Dissociation of the tetrameric phosphoglycerate mutase from yeast by a mutation in the subunit contact region. + + + + + + + + + +FUNCTION +SUBUNIT +MUTAGENESIS OF LYS-169 +BIOPHYSICOCHEMICAL PROPERTIES + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Enolase takes part in a macromolecular complex associated to mitochondria in yeast. + + + + + + + + + + + + + +SUBCELLULAR LOCATION + + + +Toward the complete yeast mitochondrial proteome: multidimensional separation techniques for mitochondrial proteomics. + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-116 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-12; SER-116 AND SER-185 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-116; SER-127 AND SER-197 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT TYR-49; SER-116; SER-128 AND SER-197 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Intermembrane space proteome of yeast mitochondria. + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-31; LYS-57; LYS-71; LYS-139; LYS-175 AND LYS-191 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Structure and activity of phosphoglycerate mutase. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.8 ANGSTROMS) IN COMPLEX WITH 3-PHOSPHO-D-GLYCERATE +SUBUNIT +REACTION MECHANISM + + + +The 2.3 A X-ray crystal structure of S. cerevisiae phosphoglycerate mutase. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.3 ANGSTROMS) +SUBUNIT + + + +Structure of a phosphoglycerate mutase:3-phosphoglyceric acid complex at 1.7 A. + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (1.70 ANGSTROMS) IN COMPLEX WITH 3-PHOSPHO-D-GLYCERATE +SUBUNIT +ACTIVE SITE + + + +Sulphate ions observed in the 2.12 A structure of a new crystal form of S. cerevisiae phosphoglycerate mutase provide insights into understanding the catalytic mechanism. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.12 ANGSTROMS) IN COMPLEX WITH SUBSTRATE ANALOGS +SUBUNIT +ACTIVE SITE + + + +Polyanionic inhibitors of phosphoglycerate mutase: combined structural and biochemical analysis. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.50 ANGSTROMS) IN COMPLEX WITH SUBSTRATE ANALOGS +ACTIVITY REGULATION +SUBUNIT + + +Interconversion of 3- and 2-phosphoglycerate with 2,3-bisphosphoglycerate as the primer of the reaction. Can also Catalyzes the reaction of EC 5.4.2.4 (synthase), but with a reduced activity. + + + +(2R)-2-phosphoglycerate = (2R)-3-phosphoglycerate + + + + + + + +Inhibited by inositol hexakisphosphate and benzene tri-, tetra- and hexacarboxylates. + + + +740 uM for 3-phosphoglycerate +8.1 uM for 2,3-bisphosphoglycerate (for mutase reaction) +2.4 uM for 2,3-bisphosphoglycerate (for phosphatase reaction) +kcat is 490 sec(-1) for the mutase reaction, 0.0074 sec(-1) for the synthase reaction and 0.0087 sec(-1) for the phosphatase reaction with 3-phosphoglycerate as substrate. + + + +Carbohydrate degradation; glycolysis; pyruvate from D-glyceraldehyde 3-phosphate: step 3/5. + + +Homotetramer: dimer of dimers. + + + +Cytoplasm + + +Mitochondrion outer membrane +Peripheral membrane protein +Cytoplasmic side + + +Mitochondrion intermembrane space + + + +Present with 172000 molecules/cell in log phase SD medium. + + +Belongs to the phosphoglycerate mutase family. BPG-dependent PGAM subfamily. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +Glycolysis +Isomerase +Isopeptide bond +Membrane +Mitochondrion +Mitochondrion outer membrane +Phosphoprotein +Reference proteome +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +K +P + + + + + +H +A + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MPKLVLVRHGQSEWNEKNLFTGWVDVKLSAKGQQEAARAGELLKEKKVYPDVLYTSKLSRAIQTANIALEKADRLWIPVNRSWRLNERHYGDLQGKDKAETLKKFGEEKFNTYRRSFDVPPPPIDASSPFSQKGDERYKYVDPNVLPETESLALVIDRLLPYWQDVIAKDLLSGKTVMIAAHGNSLRGLVKHLEGISDADIAKLNIPTGIPLVFELDENLKPSKPSYYLDPEAAAAGAAAVANQGKK + + +O13516 +D6W3T6 +RS9A_YEAST + + +40S ribosomal protein S9-A + + +RP21 + + +S13 + + +Small ribosomal subunit protein uS4-A + + +YP28 + + +YS11 + + + +RPS9A +RPS13A +YS11A +YPL081W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Yeast ribosomal proteins: XII. YS11 of Saccharomyces cerevisiae is a homologue to E. coli S4 according to the gene analysis. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Isolation of seventeen proteins and amino-terminal amino acid sequences of eight proteins from cytoplasmic ribosomes of yeast. + + + + + + + + +PROTEIN SEQUENCE OF 2-24 + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The small-subunit processome is a ribosome assembly intermediate. + + + + + + + + + + +FUNCTION +INTERACTION WITH MPP10 AND SNORNA U3 +IDENTIFICATION IN SSU PROCESSOME +SUBCELLULAR LOCATION + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Structure of the 80S ribosome from Saccharomyces cerevisiae -- tRNA-ribosome and subunit-subunit interactions. + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 19-196 +ELECTRON MICROSCOPY + + + +Domain movements of elongation factor eEF2 and the eukaryotic 80S ribosome facilitate tRNA translocation. + + + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 19-197 +ELECTRON MICROSCOPY + + + +Crystal structure of the eukaryotic ribosome. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (4.00 ANGSTROMS) OF 80S RIBOSOME + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.00 ANGSTROMS) OF 80S RIBOSOME +SUBUNIT +SUBCELLULAR LOCATION + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel (PubMed:22096102). uS4 is involved in nucleolar processing of pre-18S ribosomal RNA and ribosome assembly (PubMed:15590835). + + +Component of the small ribosomal subunit (SSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). Interacts with snoRNA U3. uS11 interacts with MPP10. Component of the ribosomal small subunit (SSU) processome composed of at least 40 protein subunits and snoRNA U3 (PubMed:15590835). + + + +Cytoplasm + + +Nucleus +Nucleolus + + + +Present with 106000 molecules/cell in log phase SD medium. + + +There are 2 genes for uS4 in yeast. + + +Belongs to the universal ribosomal protein uS4 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +Isopeptide bond +Nucleus +Phosphoprotein +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ribosome biogenesis +RNA-binding +rRNA processing +rRNA-binding +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + +ESS +QSB + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MPRAPRTYSKTYSTPKRPYESSRLDAELKLAGEFGLKNKKEIYRISFQLSKIRRAARDLLTRDEKDPKRLFEGNALIRRLVRVGVLSEDKKKLDYVLALKVEDFLERRLQTQVYKLGLAKSVHHARVLITQRHIAVGKQIVNIPSFMVRLDSEKHIDFAPTSPFGGARPGRVARRNAARKAEASGEAADEADEADEE + + +P02407 +D6VZF0 +RS17A_YEAST + + +40S ribosomal protein S17-A + + +RP51A + + +Small ribosomal subunit protein eS17-A + + + +RPS17A +RP51A +YML024W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Expression of a beta-galactosidase gene containing the ribosomal protein 51 intron is sensitive to the rna2 mutation of yeast. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +RY26 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XIII. + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Crystal structure of the eukaryotic ribosome. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (4.00 ANGSTROMS) OF 80S RIBOSOME + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.00 ANGSTROMS) OF 80S RIBOSOME +SUBUNIT +SUBCELLULAR LOCATION + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the small ribosomal subunit (SSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +Present with 30900 molecules/cell in log phase SD medium. + + +There are 2 genes for eS17 in yeast. + + +Belongs to the eukaryotic ribosomal protein eS17 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Reference proteome +Ribonucleoprotein +Ribosomal protein + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MGRVRTKTVKRASKALIERYYPKLTLDFQTNKRLCDEIATIQSKRLRNKIAGYTTHLMKRIQKGPVRGISFKLQEEERERKDQYVPEVSALDLSRSNGVLNVDNQTSDLVKSLGLKLPLSVINVSAQRDRRYRKRV + + +P05756 +D6VS50 +RS13_YEAST + + +40S ribosomal protein S13 + + +S27a + + +Small ribosomal subunit protein uS15 + + +YS15 + + + +RPS13 +RPS13C +YDR064W +D4252 +YD9609.18 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Nucleotide sequence analysis of a 32,500 bp region of the right arm of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Isolation of seventeen proteins and amino-terminal amino acid sequences of eight proteins from cytoplasmic ribosomes of yeast. + + + + + + + + +PROTEIN SEQUENCE OF 2-41 + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +The action of N-terminal acetyltransferases on yeast ribosomal proteins. + + + + + + + + + +CLEAVAGE OF INITIATOR METHIONINE + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-32 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-39 AND LYS-43 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Structure of the 80S ribosome from Saccharomyces cerevisiae -- tRNA-ribosome and subunit-subunit interactions. + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 66-130 +ELECTRON MICROSCOPY + + + +Domain movements of elongation factor eEF2 and the eukaryotic 80S ribosome facilitate tRNA translocation. + + + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 66-130 +ELECTRON MICROSCOPY + + + +Crystal structure of the eukaryotic ribosome. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (4.00 ANGSTROMS) OF 80S RIBOSOME + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.00 ANGSTROMS) OF 80S RIBOSOME +SUBUNIT +SUBCELLULAR LOCATION + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the small ribosomal subunit (SSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +Belongs to the universal ribosomal protein uS15 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +Isopeptide bond +Phosphoprotein +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + +W +G + + + + + +S +C + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MGRMHSAGKGISSSAIPYSRNAPAWFKLSSESVIEQIVKYARKGLTPSQIGVLLRDAHGVTQARVITGNKIMRILKSNGLAPEIPEDLYYLIKKAVSVRKHLERNRKDKDAKFRLILIESRIHRLARYYRTVAVLPPNWKYESATASALVN + + +P46784 +D6W055 +RS10B_YEAST + + +40S ribosomal protein S10-B + + +Small ribosomal subunit protein eS10-B + + + +RPS10B +YMR230W +YM9959.12 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XIII. + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +The action of N-terminal acetyltransferases on yeast ribosomal proteins. + + + + + + + + + +ANALYSIS OF N-TERMINUS + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +SUBUNIT +SUBCELLULAR LOCATION + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Gcn1 contacts the small ribosomal protein Rps10, which is required for full activation of the protein kinase Gcn2. + + + + + + + + +FUNCTION +INTERACTION WITH GCN1 + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel (PubMed:22096102). eS10 plays a role as a positive regulator of the GCN2 kinase activity by stimulating GCN1-mediated GCN2 activation (PubMed:25437641). + + +Component of the small ribosomal subunit (SSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). eS10 interacts with GCN1 (via middle region); this interaction is direct and promotes GCN2 kinase activity (PubMed:25437641). + + + +Cytoplasm + + + +The N-terminus is not modified. + + +Present with 7650 molecules/cell in log phase SD medium. + + +There are 2 genes for eS10 in yeast. + + +Belongs to the eukaryotic ribosomal protein eS10 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Reference proteome +Ribonucleoprotein +Ribosomal protein + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MLMPKQERNKIHQYLFQEGVVVAKKDFNQAKHEEIDTKNLYVIKALQSLTSKGYVKTQFSWQYYYYTLTEEGVEYLREYLNLPEHIVPGTYIQERNPSQRPQRRY + + +Q05911 +D6VYZ6 +PUR8_YEAST + + +Adenylosuccinate lyase +ASL +4.3.2.2 + + +Adenylosuccinase +ASase + + + +ADE13 +YLR359W +L8039.12 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +A proteomics approach to understanding protein ubiquitination. + + + + + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-196 +IDENTIFICATION BY MASS SPECTROMETRY + +SUB592 + + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +N(6)-(1,2-dicarboxyethyl)-AMP = AMP + fumarate + + + + + + + + + +(2S)-2-[5-amino-1-(5-phospho-beta-D-ribosyl)imidazole-4-carboxamido]succinate = 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole-4-carboxamide + fumarate + + + + + + + + +Purine metabolism; AMP biosynthesis via de novo pathway; AMP from IMP: step 2/2. + + +Purine metabolism; IMP biosynthesis via de novo pathway; 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide from 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxylate: step 2/2. + + +Homotetramer. Residues from neighboring subunits contribute catalytic and substrate-binding residues to each active site (By similarity). + + + +Q05911 + + +P06103 + + +false +2 + + +Belongs to the lyase 1 family. Adenylosuccinate lyase subfamily. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Isopeptide bond +Lyase +Purine biosynthesis +Reference proteome +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MPDYDNYTTPLSSRYASKEMSATFSLRNRFSTWRKLWLNLAIAEKELGLTVVTDEAIEQMRKHVEITDDEIAKASAQEAIVRHDVMAHVHTFGETCPAAAGIIHLGATSCFVTDNADLIFIRDAYDIIIPKLVNVINRLAKFAMEYKDLPVLGWTHFQPAQLTTLGKRATLWIQELLWDLRNFERARNDIGLRGVKGTTGTQASFLALFHGNHDKVEALDERVTELLGFDKVYPVTGQTYSRKIDIDVLAPLSSFAATAHKMATDIRLLANLKEVEEPFEKSQIGSSAMAYKRNPMRCERVCSLARHLGSLFSDAVQTASVQWFERTLDDSAIRRISLPSAFLTADILLSTLLNISSGLVVYPKVIERRIKGELPFMATENIIMAMVEKNASRQEVHERIRVLSHQAAAVVKEEGGENDLIERVKRDEFFKPIWEELDSLLEPSTFVGRAPQQVEKFVQKDVNNALQPFQKYLNDEQVKLNV + + +P28272 +D6VWY7 +Q2XN75 +Q70DC7 +PYRD_YEAST + + +Dihydroorotate dehydrogenase (fumarate) +DHOD +DHODase +DHOdehase +1.3.98.1 + + +Dihydroorotate oxidase + + + +URA1 +YKL216W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Nucleotide sequence of the URA1 gene of Saccharomyces cerevisiae. + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] +FUNCTION + +ATCC 28383 / FL100 / VTT C-80102 + + + + +Differential evolution of the Saccharomyces cerevisiae DUP240 paralogs and implication of recombination in phylogeny. + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] +VARIANT LYS-58 + +CLIB 219 +CLIB 382 +CLIB 388 +CLIB 410 +CLIB 413 +CLIB 556 +CLIB 630 +CLIB 95 +K1 +R12 +R13 +Sigma 1278B +YIIc12 +YIIc17 + + + + +The complete sequencing of a 24.6 kb segment of yeast chromosome XI identified the known loci URA1, SAC1 and TRP3, and revealed 6 new open reading frames including homologues to the threonine dehydratases, membrane transporters, hydantoinases and the phospholipase A2-activating protein. + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Complete DNA sequence of yeast chromosome XI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Divergent evolution of pyrimidine biosynthesis between anaerobic and aerobic yeasts. + + + + + + + + +FUNCTION +SUBCELLULAR LOCATION + + + +Catalytic properties of dihydroorotate dehydrogenase from Saccharomyces cerevisiae: studies on pH, alternate substrates, and inhibitors. + + + + + + + + +FUNCTION +SUBUNIT +COFACTOR +BIOPHYSICOCHEMICAL PROPERTIES + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Two different dihydroorotate dehydrogenases from yeast Saccharomyces kluyveri. + + + + + + + + + +FUNCTION +CATALYTIC ACTIVITY +SUBSTRATE SPECIFICITY +BIOPHYSICOCHEMICAL PROPERTIES + + + +Horizontal gene transfer promoted evolution of the ability to propagate under anaerobic conditions in yeasts. + + + + + + + + + + + + + + + +FUNCTION + + + +Dihydroorotate dehydrogenase from Saccharomyces cerevisiae: spectroscopic investigations with the recombinant enzyme throw light on catalytic properties and metabolism of fumarate analogues. + + + + + + + + + +FUNCTION +BIOPHYSICOCHEMICAL PROPERTIES + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-46 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Catalyzes the conversion of dihydroorotate to orotate with fumarate as the electron acceptor. Molecular oxygen can replace fumarate in vitro. Does not use oxaloacetate or NAD or NADP as electron acceptors. + + + +(S)-dihydroorotate + fumarate = orotate + succinate + + + + + + + + + + +FMN + + +Binds 1 FMN per subunit. + + +The activity is independent of the presence of oxygen. + + + +8.4 uM for (S)-dihydroorotate (at pH 7.5) +45 uM for fumarate (at pH 7.5) +115 uM for 2,6-dichloroindophenol +20.4 umol/min/mg enzyme (with 2,6-dichloroindophenol as electron acceptor) +5.1 umol/min/mg enzyme (with fumarate as electron acceptor) + + +Optimum pH is 8.5. Active from pH 7 to pH 10. + + + +Pyrimidine metabolism; UMP biosynthesis via de novo pathway. + + +Homodimer. + + + +Cytoplasm + + + +Present with 264000 molecules/cell in log phase SD medium. + + +Belongs to the dihydroorotate dehydrogenase family. Type 1 subfamily. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Flavoprotein +FMN +Isopeptide bond +Oxidoreductase +Pyrimidine biosynthesis +Reference proteome +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +E +K + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MTASLTTKFLNNTYENPFMNASGVHCMTTQELDELANSKAGAFITKSATTLEREGNPEPRYISVPLGSINSMGLPNEGIDYYLSYVLNRQKNYPDAPAIFFSVAGMSIDENLNLLRKIQDSEFNGITELNLSCPNVPGKPQVAYDFDLTKETLEKVFAFFKKPLGVKLPPYFDFAHFDIMAKILNEFPLAYVNSINSIGNGLFIDVEKESVVVKPKNGFGGIGGEYVKPTALANVRAFYTRLRPEIKVIGTGGIKSGKDAFEHLLCGASMLQIGTELQKEGVKIFERIEKELKDIMEAKGYTSIDQFRGKLNSI + + +Q00816 +D6VS13 +REG1_YEAST + + +Resistance to glucose repression protein 1 + + +Protein HEX2 + + +Second-site suppressor of the rna1-1 mutation 1 + + + +REG1 +HEX2 +PZF240 +SPP43 +SRN1 +YDR028C +YD9813.06C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Characterization of Hex2 protein, a negative regulatory element necessary for glucose repression in yeast. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +SRN1, a yeast gene involved in RNA processing, is identical to HEX2/REG1, a negative regulator in glucose repression. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Sequencing and analysis of a 35.4 kb region on the right arm of chromosome IV from Saccharomyces cerevisiae reveal 23 open reading frames. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 775-1014 + + + +REG1 binds to protein phosphatase type 1 and regulates glucose repression in Saccharomyces cerevisiae. + + + + + + + +INTERACTION WITH PP1 + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Quantitative phosphoproteomics applied to the yeast pheromone signaling pathway. + + + + + + + + + + + + +ACETYLATION [LARGE SCALE ANALYSIS] AT SER-2 +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-75 +CLEAVAGE OF INITIATOR METHIONINE [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +YAL6B + + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-75; SER-421; SER-572 AND SER-576 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-73; SER-75; TYR-480 AND SER-490 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-75; SER-254; SER-311; SER-421; SER-576 AND SER-680 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-75; SER-242; SER-421; SER-570; SER-572; SER-576; SER-610; SER-614; THR-896; SER-898 AND SER-980 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Interaction of SNF1 protein kinase with its activating kinase Sak1. + + + + + + + + +FUNCTION +INTERACTION WITH SAK1 + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +ACETYLATION [LARGE SCALE ANALYSIS] AT SER-2 +CLEAVAGE OF INITIATOR METHIONINE [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Involved in RNA processing and negative regulation of glucose repression. Regulates the level of two antigens, P43 and P70. Binds to protein phosphatase type 1. Functions with REG2 and SNF1 protein kinase to regulate growth. Might regulate SNF1 directly or indirectly. + + +Interacts with SAK1. + + + +Q00816 + + +P32598 + + +false +4 + + + +Q00816 + + +P06782 + + +false +7 + + + +Nucleus + + + +Present with 2560 molecules/cell in log phase SD medium. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Acetylation +Nucleus +Phosphoprotein +Reference proteome + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +DK +EE + + + + + + +N +K + + + + + +D +H + + + + + +S +T + + + + + +ARGMASKYLHSWKKSDVKPQENGNDSS +QEVWQASTCTLGKRVTSSHKKMEMTAVRRKNFEVNMKRK + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSTNLANYFAGKKDIENEHVNRNASHESNSKSDVKISGNDNDNDEDMGPSVSMAVQAKNDDDFHKSTFNLKRTRSMGLLDEYIDPTKKLLGRSDDLYDNDNEYYDNSSNNSSSNSSDDDYDDGYQEHSTSVSPPPADNDSYLIPQDDNDVVVEPERHVDYLSHEWKESEISNSWKYIILKKKKRDVDLVNAARLENASWRTWAKARNNLKTVSPEVVNWSKDSDVTWLYGPIVRDSEGNAQSEEEHDLERGYGSDDENSKRISMPTKNSKSIAAAPKPILKKRTVTEIIEDNALWKLNEARKHMTEMKHASVIMDPNGNKNVHDDFDALAAQVNAQYYHYPKESNSSVSLKSQHSDKKDNSTIPNPVGENSNGGGDKGEEDLHLKSALHVQNNRSTAQSNKSILENSTNDRKANLDQNLNSPDNNRFPSSTSSSNRDNENNSMGLSSILTSNPSEKSNKPTKNRHIHFNDRVEQCMALRYPASQSEDDESDDENKQYVDVNNNANVTTINNNRTPLLAIQHKSIPINSATEHLNKNTSDDDTSSQSSSSSHSDDEEHGGLYINARFSRRSDSGVHSPITDNSSVASSTTSRAHVRPIIKLLPDTTLNYGSDEESDNGEFNGYGNAVSHNVNTSRGYDYIYDYNSVYTGDTSSFLPVDSCDIVDVPEGMDLQTAIADDNASNYEFNNAVESKEKHVPQLHKASANNTTRQHGSHMLLYDDDNYSSSSDSEQQFIEDSQYNSSDDEEEEDDDDQEVDDNHDEGLSLRRTLSLGKSGSTNSLYDLAQPSLSSATPQQKNPTNFTGGKTDVDKDAQLAVRPYPLKRNSSSGNFIFNSDSEEESSSEEEQRPLPANSQLVNRSVLKGSVTPANISSQKKKALPKQPKASDSSQSFRIVNNTPSPAEVGASDVAIEGYFSPRNESIKSVVSGGNMMDHQDHSEMDTLAKGFENCHINNASKLKDKKVDSVQTTRKEASLTDSSNESLHKVVQNARGMASKYLHSWKKSDVKPQENGNDSS + + +P0CX50 +D6W0P3 +P07279 +RL18B_YEAST + + +60S ribosomal protein L18-B + + +Large ribosomal subunit protein eL18-B + + +RP28 + + + +RPL18B +RP28B +YNL301C +N0425 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Structure and organization of two linked ribosomal protein genes in yeast. + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Sequence analysis of a 30 kb DNA segment from yeast chromosome XIV carrying a ribosomal protein gene cluster, the genes encoding a plasma membrane protein and a subunit of replication factor C, and a novel putative serine/threonine protein kinase gene. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 96604 / S288c / FY1679 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XIV and its evolutionary implications. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Direct mass spectrometric analysis of intact proteins of the yeast large ribosomal subunit using capillary LC/FTICR. + + + + + + + + + + + + + +MASS SPECTROMETRY +CLEAVAGE OF INITIATOR METHIONINE + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Phosphorylation by casein kinase 2 regulates Nap1 localization and function. + + + + + + + + + + + +INTERACTION WITH NAP1 +IDENTIFICATION BY MASS SPECTROMETRY + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +SUBUNIT +SUBCELLULAR LOCATION + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-116 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Methylation of translation-associated proteins in Saccharomyces cerevisiae: Identification of methylated lysines and their methyltransferases. + + + + + + + + + + +METHYLATION AT LYS-50 + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Cryo-EM structures of Arx1 and maturation factors Rei1 and Jjj1 bound to the 60S ribosomal subunit. + + + + + + + + + +STRUCTURE BY ELECTRON MICROSCOPY (8.10 ANGSTROMS) + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). eL18 interacts with NAP1 (PubMed:18086883). + + + +Cytoplasm + + + +Monoisotopic mass. + + +Present with 63700 molecules/cell in log phase SD medium. + + +There are 2 genes for eL18 in yeast. + + +Belongs to the eukaryotic ribosomal protein eL18 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Isopeptide bond +Methylation +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MGIDHTSKQHKRSGHRTAPKSDNVYLKLLVKLYTFLARRTDAPFNKVVLKALFLSKINRPPVSVSRIARALKQEGAANKTVVVVGTVTDDARIFEFPKTTVAALRFTAGARAKIVKAGGECITLDQLAVRAPKGQNTLILRGPRNSREAVRHFGMGPHKGKAPRILSTGRKFERARGRRRSKGFKV + + +P0CX82 +D6VPX3 +P05735 +RL19A_YEAST + + +60S ribosomal protein L19-A + + +L23 + + +Large ribosomal subunit protein eL19-A + + +RP15L + + +RP33 + + +YL14 + + + +RPL19A +RPL23A +YL14A +YBR084C-A +YBR084BC + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Nucleotide sequence and characterization of the Saccharomyces cerevisiae RPL19A gene encoding a homolog of the mammalian ribosomal protein L19. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + + + + + + + +NUCLEOTIDE SEQUENCE [MRNA] + +ATCC 204508 / S288c + + + + +Complete DNA sequence of yeast chromosome II. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Yeast ribosomal proteins: VII. Cytoplasmic ribosomal proteins from Schizosaccharomyces pombe. + + + + + + + + +PROTEIN SEQUENCE OF 2-31 + + + +NH2-terminal acetylation of ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + + +PROTEIN SEQUENCE OF 2-21 + + + +Isolation and characterization of the Saccharomyces cerevisiae MIS1 gene encoding mitochondrial C1-tetrahydrofolate synthase. + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 43-189 + + + +Identification of protein coding regions by database similarity search. + + + + + + + +IDENTIFICATION + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Direct mass spectrometric analysis of intact proteins of the yeast large ribosomal subunit using capillary LC/FTICR. + + + + + + + + + + + + + +MASS SPECTROMETRY + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-30; SER-37 AND SER-91 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-21; LYS-53; LYS-60; LYS-146 AND LYS-186 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Structure of the 80S ribosome from Saccharomyces cerevisiae -- tRNA-ribosome and subunit-subunit interactions. + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 3-143 +ELECTRON MICROSCOPY + + + +Domain movements of elongation factor eEF2 and the eukaryotic 80S ribosome facilitate tRNA translocation. + + + + + + + + + + + + + + +3D-STRUCTURE MODELING +ELECTRON MICROSCOPY + + + +Crystal structure of the eukaryotic ribosome. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (4.0 ANGSTROMS) OF 80S RIBOSOME + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.0 ANGSTROMS) OF 80S RIBOSOME +SUBUNIT +SUBCELLULAR LOCATION + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. eL19 may play a role in the last stages of translation initiation, in particular subunit joining and shedding/releasing factors. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes). eL19 lies in close proximity to the binding site for eukaryotic initiation factor eIF4G (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +Average mass. + + +Present with 97700 molecules/cell in log phase SD medium. + + +There are 2 genes for eL19 in yeast. + + +Belongs to the eukaryotic ribosomal protein eL19 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +Isopeptide bond +Phosphoprotein +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +A +S + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MANLRTQKRLAASVVGVGKRKVWLDPNETSEIAQANSRNAIRKLVKNGTIVKKAVTVHSKSRTRAHAQSKREGRHSGYGKRKGTREARLPSQVVWIRRLRVLRRLLAKYRDAGKIDKHLYHVLYKESKGNAFKHKRALVEHIIQAKADAQREKALNEEAEARRLKNRAARDRRAQRVAEKRDALLKEDA + + +P40212 +D6VZW4 +RL13B_YEAST + + +60S ribosomal protein L13-B + + +Large ribosomal subunit protein eL13-B + + + +RPL13B +RPL13 +YMR142C +YM9375.11C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XIII. + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-144 AND THR-152 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +SUBUNIT +SUBCELLULAR LOCATION + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +Present with 54200 molecules/cell in log phase SD medium. + + +There are 2 genes for eL13 in yeast. + + +Belongs to the eukaryotic ribosomal protein eL13 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Phosphoprotein +Reference proteome +Ribonucleoprotein +Ribosomal protein + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MAISKNLPILKNHFRKHWQERVKVHFDQAGKKVSRRNARAARAAKIAPRPLDLLRPVVRAPTVKYNRKVRAGRGFTLAEVKAAGLTAAYARTIGIAVDHRRQNRNQEIFDANVQRLKEYQSKIIVFPRDGKAPEAEQVLSAAATFPIAQPATDVEARAVQDNGESAFRTLRLARSEKKFRGIREKRAREKAEAEAEKKK + + +Q12690 +D6VRR7 +RL13A_YEAST + + +60S ribosomal protein L13-A + + +Large ribosomal subunit protein eL13-A + + + +RPL13A +YDL082W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Crystal structure of the eukaryotic ribosome. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (4.0 ANGSTROMS) OF 80S RIBOSOME + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.0 ANGSTROMS) OF 80S RIBOSOME +SUBUNIT +SUBCELLULAR LOCATION + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +Present with 133000 molecules/cell in log phase SD medium. + + +There are 2 genes for eL13 in yeast. + + +Belongs to the eukaryotic ribosomal protein eL13 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + 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SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +NH2-terminal acetylation of ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + + +PROTEIN SEQUENCE OF 2-26 +ACETYLATION AT SER-2 BY NATA + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-177 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Structure of the 80S ribosome from Saccharomyces cerevisiae -- tRNA-ribosome and subunit-subunit interactions. + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 2-147 +ELECTRON MICROSCOPY + + + +Domain movements of elongation factor eEF2 and the eukaryotic 80S ribosome facilitate tRNA translocation. + + + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 2-147 +ELECTRON MICROSCOPY + + + +Crystal structure of the eukaryotic ribosome. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (4.0 ANGSTROMS) OF 80S RIBOSOME + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.0 ANGSTROMS) OF 80S RIBOSOME +SUBUNIT +SUBCELLULAR LOCATION + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +N-terminally acetylated by acetyltransferase NatA. + + +Present with 43300 molecules/cell in log phase SD medium. + + +There are 2 genes for uL13 in yeast. + + +Belongs to the universal ribosomal protein uL13 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +Cytoplasm +Direct protein sequencing +Isopeptide bond +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + +H +L + + + + + +S +E + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSVEPVVVIDGKGHLVGRLASVVAKQLLNGQKIVVVRAEELNISGEFFRNKLKYHDFLRKATAFNKTRGPFHFRAPSRIFYKALRGMVSHKTARGKAALERLKVFEGIPPPYDKKKRVVVPQALRVLRLKPGRKYTTLGKLSTSVGWKYEDVVAKLEAKRKVSSAEYYAKKRAFTKKVASANATAAESDVAKQLAALGY + + +P0CX83 +D6VPX3 +P05735 +RL19B_YEAST + + +60S ribosomal protein L19-B + + +L23 + + +Large ribosomal subunit protein eL19 + + +RP15L + + +RP33 + + +YL14 + + + +RPL19B +RPL23B +YL14B +YBL027W +YBL0424 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Organization and characterization of the two yeast ribosomal protein YL19 genes. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +S288c / GRF88 + + + + + + + + + + +NUCLEOTIDE SEQUENCE [MRNA] + +ATCC 204508 / S288c + + + + +Analysis of a 17.4 kb DNA segment of yeast chromosome II encompassing the ribosomal protein L19 as well as proteins with homologies to components of the hnRNP and snRNP complexes and to the human proliferation-associated p120 antigen. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Complete DNA sequence of yeast chromosome II. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Yeast ribosomal proteins: VII. Cytoplasmic ribosomal proteins from Schizosaccharomyces pombe. + + + + + + + + +PROTEIN SEQUENCE OF 2-31 + + + +NH2-terminal acetylation of ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + + +PROTEIN SEQUENCE OF 2-21 + + + +Identification of protein coding regions by database similarity search. + + + + + + + +IDENTIFICATION + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Direct mass spectrometric analysis of intact proteins of the yeast large ribosomal subunit using capillary LC/FTICR. + + + + + + + + + + + + + +MASS SPECTROMETRY + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-30; SER-37 AND SER-91 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +SUBUNIT +SUBCELLULAR LOCATION + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-21; LYS-53; LYS-60; LYS-146 AND LYS-186 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. eL19 may play a role in the last stages of translation initiation, in particular subunit joining and shedding/releasing factors. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes). eL19 lies in close proximity to the binding site for eukaryotic initiation factor eIF4G (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +Average mass. + + +Present with 225000 molecules/cell in log phase SD medium. + + +There are 2 genes for eL19 in yeast. + + +Belongs to the eukaryotic ribosomal protein eL19 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +Isopeptide bond +Phosphoprotein +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MANLRTQKRLAASVVGVGKRKVWLDPNETSEIAQANSRNAIRKLVKNGTIVKKAVTVHSKSRTRAHAQSKREGRHSGYGKRKGTREARLPSQVVWIRRLRVLRRLLAKYRDAGKIDKHLYHVLYKESKGNAFKHKRALVEHIIQAKADAQREKALNEEAEARRLKNRAARDRRAQRVAEKRDALLKEDA + + +Q02753 +D6VQI5 +RL21A_YEAST + + +60S ribosomal protein L21-A + + +Large ribosomal subunit protein eL21-A + + + +RPL21A +URP1 +YBR191W +YBR1401 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Yeast single copy gene URP1 is a homolog of rat ribosomal protein gene L21. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Complete DNA sequence of yeast chromosome II. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +A 12.5 kb fragment of the yeast chromosome II contains two adjacent genes encoding ribosomal proteins and six putative new genes, one of which encodes a putative transcriptional factor. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 1-39 + +ATCC 204508 / S288c + + + + +RIM2, MSI1 and PGI1 are located within an 8 kb segment of Saccharomyces cerevisiae chromosome II, which also contains the putative ribosomal gene L21 and a new putative essential gene with a leucine zipper motif. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 40-160 + +ATCC 204508 / S288c + + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +The action of N-terminal acetyltransferases on yeast ribosomal proteins. + + + + + + + + + +CLEAVAGE OF INITIATOR METHIONINE + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Structure of the 80S ribosome from Saccharomyces cerevisiae -- tRNA-ribosome and subunit-subunit interactions. + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 4-100 +ELECTRON MICROSCOPY + + + +Domain movements of elongation factor eEF2 and the eukaryotic 80S ribosome facilitate tRNA translocation. + + + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 2-100 +ELECTRON MICROSCOPY + + + +Crystal structure of the eukaryotic ribosome. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (4.0 ANGSTROMS) OF 80S RIBOSOME + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.0 ANGSTROMS) OF 80S RIBOSOME +SUBUNIT +SUBCELLULAR LOCATION + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +There are 2 genes for eL21 in yeast. + + +Belongs to the eukaryotic ribosomal protein eL21 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Isopeptide bond +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MGKSHGYRSRTRYMFQRDFRKHGAVHLSTYLKVYKVGDIVDIKANGSIQKGMPHKFYQGKTGVVYNVTKSSVGVIINKMVGNRYLEKRLNLRVEHIKHSKCRQEFLERVKANAAKRAEAKAQGVAVQLKRQPAQPRESRIVSTEGNVPQTLAPVPYETFI + + +P26785 +D6W1B0 +RL16B_YEAST + + +60S ribosomal protein L16-B + + +L21 + + +Large ribosomal subunit protein uL13-B + + +RP23 + + +YL15 + + + +RPL16B +RP23 +RPL21B +YNL069C +N2377 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Sequencing a cosmid clone of Saccharomyces cerevisiae chromosome XIV reveals 12 new open reading frames (ORFs) and an ancient duplication of six ORFs. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 96604 / S288c / FY1679 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XIV and its evolutionary implications. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +NH2-terminal acetylation of ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + + +PROTEIN SEQUENCE OF 2-26 +ACETYLATION AT SER-2 BY NATA + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +The action of N-terminal acetyltransferases on yeast ribosomal proteins. + + + + + + + + + +CLEAVAGE OF INITIATOR METHIONINE +ACETYLATION AT SER-2 BY NATA + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-185 AND SER-187 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-43 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-181 AND SER-187 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-185 AND SER-187 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +SUBUNIT +SUBCELLULAR LOCATION + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-176 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +N-terminally acetylated by acetyltransferase NatA. + + +There are 2 genes for uL13 in yeast. + + +Belongs to the universal ribosomal protein uL13 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +Cytoplasm +Direct protein sequencing +Isopeptide bond +Phosphoprotein +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +L +H + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSQPVVVIDAKDHLLGRLASTIAKQVLNGQKIVVVRAEALNISGEFFRNKLKYHDFLRKATAFNKTRGPFHFRAPSRILYKAIRGMVSHKTARGKAALERLKIFEGIPPPYDKKKRVVVPQALRVLRLKPGRKYTTLGKLSTSVGWKYEDVVAKLEDKRKVRSAEYYAKKRAFTKKVSSASAAASESDVAKQLASFGY + + +P0CX49 +D6W0P3 +P07279 +RL18A_YEAST + + +60S ribosomal protein L18-A + + +Large ribosomal subunit protein eL18-A + + +RP28 + + + +RPL18A +RP28A +YOL120C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Structure and organization of two linked ribosomal protein genes in yeast. + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +DNA sequence analysis of a 10 624 bp fragment of the left arm of chromosome XV from Saccharomyces cerevisiae reveals a RNA binding protein, a mitochondrial protein, two ribosomal proteins and two new open reading frames. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 96604 / S288c / FY1679 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Direct mass spectrometric analysis of intact proteins of the yeast large ribosomal subunit using capillary LC/FTICR. + + + + + + + + + + + + + +MASS SPECTROMETRY +CLEAVAGE OF INITIATOR METHIONINE + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Phosphorylation by casein kinase 2 regulates Nap1 localization and function. + + + + + + + + + + + +INTERACTION WITH NAP1 +IDENTIFICATION BY MASS SPECTROMETRY + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-116 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Methylation of translation-associated proteins in Saccharomyces cerevisiae: Identification of methylated lysines and their methyltransferases. + + + + + + + + + + +METHYLATION AT LYS-50 + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Structure of the 80S ribosome from Saccharomyces cerevisiae -- tRNA-ribosome and subunit-subunit interactions. + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 22-141 +ELECTRON MICROSCOPY + + + +Domain movements of elongation factor eEF2 and the eukaryotic 80S ribosome facilitate tRNA translocation. + + + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 22-141 +ELECTRON MICROSCOPY + + + +Cryo-EM structure and rRNA model of a translating eukaryotic 80S ribosome at 5.5-A resolution. + + + + + + + + + + + + + + + + + + + + + + + + +STRUCTURE BY ELECTRON MICROSCOPY (8.80 ANGSTROMS) + + + +Crystal structure of the eukaryotic ribosome. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (4.0 ANGSTROMS) + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.0 ANGSTROMS) +SUBUNIT +SUBCELLULAR LOCATION + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). eL18 interacts with NAP1 (PubMed:18086883). + + + +Cytoplasm + + + +Monoisotopic mass. + + +There are 2 genes for eL18 in yeast. + + +Belongs to the eukaryotic ribosomal protein eL18 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Isopeptide bond +Methylation +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MGIDHTSKQHKRSGHRTAPKSDNVYLKLLVKLYTFLARRTDAPFNKVVLKALFLSKINRPPVSVSRIARALKQEGAANKTVVVVGTVTDDARIFEFPKTTVAALRFTAGARAKIVKAGGECITLDQLAVRAPKGQNTLILRGPRNSREAVRHFGMGPHKGKAPRILSTGRKFERARGRRRSKGFKV + + +Q08961 +D6W3G2 +RKM1_YEAST + + +Ribosomal lysine N-methyltransferase 1 +2.1.1.- + + + +RKM1 +YPL208W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +A novel SET domain methyltransferase modifies ribosomal protein Rpl23ab in yeast. + + + + + + + + + +FUNCTION +CATALYTIC ACTIVITY + + + +Yeast ribosomal/cytochrome c SET domain methyltransferase subfamily: identification of Rpl23ab methylation sites and recognition motifs. + + + + + + + + +FUNCTION + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Methylation of translation-associated proteins in Saccharomyces cerevisiae: Identification of methylated lysines and their methyltransferases. + + + + + + + + + + +FUNCTION + + +S-adenosyl-L-methionine-dependent protein-lysine N-methyltransferase that monomethylates ribosomal protein S18 (RPS18A and RPS18B) at 'Lys-48' and dimethylates ribosomal protein L23 (RPL23A and RPL23B) at 'Lys-106' and 'Lys-110'. + + + +Cytoplasm + + +Nucleus + + + +Present with 4800 molecules/cell in log phase SD medium. + + +Belongs to the class V-like SAM-binding methyltransferase superfamily. RKM1 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Coiled coil +Cytoplasm +Methyltransferase +Nucleus +Reference proteome +S-adenosyl-L-methionine +Transferase + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSSDALKALLQWGASFGVIVPEELKFLYTDLKGIICVCEKDIDNPSIKIPPEIVISRNLPMKFFGLSESTKNINGWLKLFFAKIKFDRDNDTIVDNVRVNDKFKPYLDALPSRLNSPLVWNPSELKRLSSTNIGNSIHEKFEGIFKEWFELVSSSDMFDLERVADDVQTFHNLDELTYEALYEKILKITELQRPTIWYSFPAFLWSHLIFISRAFPEYVLNRNCPDNSIVLLPIVDLLNHDYRSKVKWYPENGWFCYEKIGTASQSRELSNNYGGKGNEELLSGYGFVLEDNIFDSVALKVKLPLDVVSTILETEPSLKLPLLSDYTTYAFENKDCVQQEKKATRSATDYINGVTYFINIQNEQCLEPLLDLFTYLSKAEEEDLHDLRARLQGIQMLRNALQSKLNSITGPPATDDSYAIDPYRVYCADVYTKGQKQILKEALTRLKKLEKTMLSENKHQLLTMSKILKNDPAFAETELPSLFSNEDGEEVIFESTYDLLILWILLKTKKNSYPTKYEWVGQQYTNFKQTAYISDDAKAFHTAYFEKQDDVDLAEVDHAIQFVVDNSFTRTSSTTEETILVRK + + +P26321 +D6W3N6 +RL5_YEAST + + +60S ribosomal protein L5 + + +L1 + + +L1a + + +Large ribosomal subunit protein uL18 + + +Ribosomal 5S RNA-binding protein + + +YL3 + + + +RPL5 +RPL1 +RPL1A +YPL131W +LPI14W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Structure of the yeast ribosomal 5 S RNA-binding protein YL3. + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Unbalanced regulation of the ribosomal 5 S RNA-binding protein in Saccharomyces cerevisiae expressing mutant 5 S rRNAs. + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Yeast ribosomal protein L1 is required for the stability of newly synthesized 5S rRNA and the assembly of 60S ribosomal subunits. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +The 5-S RNA binding protein from yeast (Saccharomyces cerevisiae) ribosomes. Evolution of the eukaryotic 5-S RNA binding protein. + + + + + + + + + + +PROTEIN SEQUENCE OF 2-31 AND 219-253 + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-235 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-167; SER-176 AND SER-235 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-164 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Synchronizing nuclear import of ribosomal proteins with ribosome assembly. + + + + + + + + + + + + + + + + + +INTERACTION WITH RPL11A; RPL11B AND SYO1 +SUBCELLULAR LOCATION + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Structure of the 80S ribosome from Saccharomyces cerevisiae -- tRNA-ribosome and subunit-subunit interactions. + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 11-232 +ELECTRON MICROSCOPY + + + +Domain movements of elongation factor eEF2 and the eukaryotic 80S ribosome facilitate tRNA translocation. + + + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 11-232 +ELECTRON MICROSCOPY + + + +Crystal structure of the eukaryotic ribosome. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (4.0 ANGSTROMS) OF 80S RIBOSOME + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.0 ANGSTROMS) OF 80S RIBOSOME +SUBUNIT +SUBCELLULAR LOCATION + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). uL18 forms a heterotrimeric complex with SYO1 and uL5 (RPL11A/RPL11B). Interaction of this complex with KAP104 allows the nuclear import of the heterotrimer (PubMed:23118189). + + + +P26321 + + +Q02892 + + +false +2 + + + +Cytoplasm + + +Nucleus + +The SYO1-uL5-uL18 complex is transported into the nucleus by KAP104. + + +Belongs to the universal ribosomal protein uL18 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + 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proteome +Ribonucleoprotein +Ribosomal protein +RNA-binding +rRNA-binding +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +T +Y + + + + + +K +R + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MAFQKDAKSSAYSSRFQTPFRRRREGKTDYYQRKRLVTQHKAKYNTPKYRLVVRFTNKDIICQIISSTITGDVVLAAAYSHELPRYGITHGLTNWAAAYATGLLIARRTLQKLGLDETYKGVEEVEGEYELTEAVEDGPRPFKVFLDIGLQRTTTGARVFGALKGASDGGLYVPHSENRFPGWDFETEEIDPELLRSYIFGGHVSQYMEELADDDEERFSELFKGYLADDIDADSLEDIYTSAHEAIRADPAFKPTEKKFTKEQYAAESKKYRQTKLSKEERAARVAAKIAALAGQQ + + +P0CX24 +A1YV95 +A1YV96 +D6W068 +P0C2I0 +P0C2I1 +P47913 +RL20B_YEAST + + +60S ribosomal protein L20-B + + +L18a + + +Large ribosomal subunit protein eL20-B + + + +RPL20B +RPL18A1 +RPL18B +YOR312C +O6116 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Sequencing of a 35.71 kb DNA segment on the right arm of yeast chromosome XV reveals regions of similarity to chromosomes I and XIII. + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 96604 / S288c / FY1679 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Genome-wide identification of spliced introns using a tiling microarray. + + + + + + + + +NUCLEOTIDE SEQUENCE [MRNA] OF 1-121 + +ATCC 201390 / BY4743 + + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +A large-scale full-length cDNA analysis to explore the budding yeast transcriptome. + + + + + + + + + + + + +IDENTIFICATION OF INTRON + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-32 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +SUBUNIT +SUBCELLULAR LOCATION + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-125; LYS-131 AND LYS-149 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes). eL20 forms multiple interactions with RNA and proteins in the central protuberance, connecting components of core functional centers that are locatzed far apart (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +There are 2 genes for eL20 in yeast. + + +Belongs to the eukaryotic ribosomal protein eL20 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Isopeptide bond +Phosphoprotein +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MAHFKEYQVIGRRLPTESVPEPKLFRMRIFASNEVIAKSRYWYFLQKLHKVKKASGEIVSINQINEAHPTKVKNFGVWVRYDSRSGTHNMYKEIRDVSRVAAVETLYQDMAARHRARFRSIHILKVAEIEKTADVKRQYVKQFLTKDLKFPLPHRVQKSTKTFSYKRPSTFY + + +P0CX46 +D6VTR2 +P05736 +RL2B_YEAST + + +60S ribosomal protein L2-B + + +L5 + + +Large ribosomal subunit protein uL2-B + + +RP8 + + +YL6 + + + +RPL2B +RPL5A +YIL018W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Characterisation of Saccharomyces cerevisiae genes encoding ribosomal protein YL6. + + + + + + + + +NUCLEOTIDE SEQUENCE [MRNA] + +ATCC 204660 / DBY746 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IX. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Yeast ribosomal proteins. VIII. Isolation of two proteins and sequence characterization of twenty-four proteins from cytoplasmic ribosomes. + + + + + + + + +PARTIAL PROTEIN SEQUENCE OF 2-41 +CLEAVAGE OF INITIATOR METHIONINE + + + +NH2-terminal acetylation of ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + + +PROTEIN SEQUENCE OF 2-21 + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Direct mass spectrometric analysis of intact proteins of the yeast large ribosomal subunit using capillary LC/FTICR. + + + + + + + + + + + + + +MASS SPECTROMETRY + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-52; SER-159; SER-160 AND SER-249 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-95 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +SUBUNIT +SUBCELLULAR LOCATION + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-46; LYS-93; LYS-119 AND LYS-145 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +Average mass. + + +Present with 4050 molecules/cell in log phase SD medium. + + +There are 2 genes for uL2 in yeast. + + +Belongs to the universal ribosomal protein uL2 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +Isopeptide bond +Phosphoprotein +Reference proteome +Ribonucleoprotein +Ribosomal protein +RNA-binding +rRNA-binding +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MGRVIRNQRKGAGSIFTSHTRLRQGAAKLRTLDYAERHGYIRGIVKQIVHDSGRGAPLAKVVFRDPYKYRLREEIFIANEGVHTGQFIYAGKKASLNVGNVLPLGSVPEGTIVSNVEEKPGDRGALARASGNYVIIIGHNPDENKTRVRLPSGAKKVISSDARGVIGVIAGGGRVDKPLLKAGRAFHKYRLKRNSWPKTRGVAMNPVDHPHGGGNHQHIGKASTISRGAVSGQKAGLIAARRTGLLRGSQKTQD + + +Q12672 +D6W3T7 +RL21B_YEAST + + +60S ribosomal protein L21-B + + +Large ribosomal subunit protein eL21-B + + + +RPL21B +YPL079W +LPF6W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +SUBUNIT +SUBCELLULAR LOCATION + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-32 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +Present with 66400 molecules/cell in log phase SD medium. + + +There are 2 genes for eL21 in yeast. + + +Belongs to the eukaryotic ribosomal protein eL21 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Isopeptide bond +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MGKSHGYRSRTRYMFQRDFRKHGAVHMSTYLKIYKVGDIVDIKANGSIQKGMPHKFYQGKTGVVYNVTKSSVGVIINKMVGNRYLEKRLNLRVEHIKHSKCRQEFLERVKANAAKRAEAKAQGVAVQLKRQPAQPRESRIVSTEGNVPQTLAPVPYETFI + + +P41056 +D6W2T8 +RL33B_YEAST + + +60S ribosomal protein L33-B + + +L37 + + +Large ribosomal subunit protein eL33-B + + +RP47 + + +YL37 + + + +RPL33B +RPL37B +YOR234C +O5224 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Saccharomyces cerevisiae ribosomal protein L37 is encoded by duplicate genes that are differentially expressed. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Sequence and analysis of a 26.9 kb fragment from chromosome XV of the yeast Saccharomyces cerevisiae. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 96604 / S288c / FY1679 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Yeast ribosomal proteins. VIII. Isolation of two proteins and sequence characterization of twenty-four proteins from cytoplasmic ribosomes. + + + + + + + + +PARTIAL PROTEIN SEQUENCE OF 2-26 +CLEAVAGE OF INITIATOR METHIONINE + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +SUBUNIT +SUBCELLULAR LOCATION + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +N-terminally acetylated by acetyltransferase NatA. + + +Present with 65600 molecules/cell in log phase SD medium. + + +There are 2 genes for eL33 in yeast. + + +Belongs to the eukaryotic ribosomal protein eL33 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Acetylation +Cytoplasm +Direct protein sequencing +Isopeptide bond +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + +N +D + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MAESHRLYVKGKHLSYQRSKRVNNPNVSLIKIEGVATPQEAQFYLGKRIAYVYRASKEVRGSKIRVMWGKVTRTHGNSGVVRATFRNNLPAKTFGASVRIFLYPSNI + + +P0CX23 +A1YV95 +A1YV96 +D6W068 +P0C2I0 +P0C2I1 +P47913 +RL20A_YEAST + + +60S ribosomal protein L20-A + + +L18a + + +Large ribosomal subunit protein eL20-A + + + +RPL20A +RPL18A +RPL18A2 +YMR242C +YM9408.04C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XIII. + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Genome-wide identification of spliced introns using a tiling microarray. + + + + + + + + +NUCLEOTIDE SEQUENCE [MRNA] OF 1-105 + +ATCC 201390 / BY4743 + + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +A large-scale full-length cDNA analysis to explore the budding yeast transcriptome. + + + + + + + + + + + + +IDENTIFICATION OF INTRON + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-32 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-125; LYS-131 AND LYS-149 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Crystal structure of the eukaryotic ribosome. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (4.0 ANGSTROMS) OF 80S RIBOSOME + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.0 ANGSTROMS) OF 80S RIBOSOME +SUBUNIT +SUBCELLULAR LOCATION + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes). eL20 forms multiple interactions with RNA and proteins in the central protuberance, connecting components of core functional centers that are locatzed far apart (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +Present with 54300 molecules/cell in log phase SD medium. + + +There are 2 genes for eL20 in yeast. + + +Belongs to the eukaryotic ribosomal protein eL20 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Isopeptide bond +Phosphoprotein +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MAHFKEYQVIGRRLPTESVPEPKLFRMRIFASNEVIAKSRYWYFLQKLHKVKKASGEIVSINQINEAHPTKVKNFGVWVRYDSRSGTHNMYKEIRDVSRVAAVETLYQDMAARHRARFRSIHILKVAEIEKTADVKRQYVKQFLTKDLKFPLPHRVQKSTKTFSYKRPSTFY + + +P0CX45 +D6VTR2 +P05736 +RL2A_YEAST + + +60S ribosomal protein L2-A + + +L5 + + +Large ribosomal subunit protein uL2-A + + +RP8 + + +YL6 + + + +RPL2A +RPL5B +YFR031C-A +YFR031BC + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Characterisation of Saccharomyces cerevisiae genes encoding ribosomal protein YL6. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204660 / DBY746 + + + + +Fifteen open reading frames in a 30.8 kb region of the right arm of chromosome VI from Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204511 / S288c / AB972 + + + + +Analysis of the nucleotide sequence of chromosome VI from Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Yeast ribosomal proteins. VIII. Isolation of two proteins and sequence characterization of twenty-four proteins from cytoplasmic ribosomes. + + + + + + + + +PARTIAL PROTEIN SEQUENCE OF 2-41 +CLEAVAGE OF INITIATOR METHIONINE + + + +NH2-terminal acetylation of ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + + +PROTEIN SEQUENCE OF 2-21 + + + +SMC2, a Saccharomyces cerevisiae gene essential for chromosome segregation and condensation, defines a subgroup within the SMC family. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 226-254 + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Direct mass spectrometric analysis of intact proteins of the yeast large ribosomal subunit using capillary LC/FTICR. + + + + + + + + + + + + + +MASS SPECTROMETRY + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-52; SER-159; SER-160 AND SER-249 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-95 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-46; LYS-93; LYS-119 AND LYS-145 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Structure of the 80S ribosome from Saccharomyces cerevisiae -- tRNA-ribosome and subunit-subunit interactions. + + + + + + + + + + + + +3D-STRUCTURE MODELING OF 2-245 +ELECTRON MICROSCOPY + + + +Domain movements of elongation factor eEF2 and the eukaryotic 80S ribosome facilitate tRNA translocation. + + + + + + + + + + + + + + +3D-STRUCTURE MODELING +ELECTRON MICROSCOPY + + + +Crystal structure of the eukaryotic ribosome. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (4.0 ANGSTROMS) OF 80S RIBOSOME + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.0 ANGSTROMS) OF 80S RIBOSOME +SUBUNIT +SUBCELLULAR LOCATION + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +Average mass. + + +There are 2 genes for uL2 in yeast. + + +Belongs to the universal ribosomal protein uL2 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +Isopeptide bond +Phosphoprotein +Reference proteome +Ribonucleoprotein +Ribosomal protein +RNA-binding +rRNA-binding +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MGRVIRNQRKGAGSIFTSHTRLRQGAAKLRTLDYAERHGYIRGIVKQIVHDSGRGAPLAKVVFRDPYKYRLREEIFIANEGVHTGQFIYAGKKASLNVGNVLPLGSVPEGTIVSNVEEKPGDRGALARASGNYVIIIGHNPDENKTRVRLPSGAKKVISSDARGVIGVIAGGGRVDKPLLKAGRAFHKYRLKRNSWPKTRGVAMNPVDHPHGGGNHQHIGKASTISRGAVSGQKAGLIAARRTGLLRGSQKTQD + + +P05744 +D6W3M6 +RL33A_YEAST + + +60S ribosomal protein L33-A + + +L37 + + +Large ribosomal subunit protein eL33-A + + +RP47 + + +YL37 + + + +RPL33A +RPL37A +YPL143W +LPI4W +P2625 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Screening a yeast promoter library leads to the isolation of the RP29/L32 and SNR17B/RPL37A divergent promoters and the discovery of a gene encoding ribosomal protein L37. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204626 / S288c / A364A + + + + +The sequence of 55 kb on the left arm of yeast chromosome XVI identifies a small nuclear RNA, a new putative protein kinase and two new putative regulators. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204511 / S288c / AB972 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Yeast ribosomal proteins. VIII. Isolation of two proteins and sequence characterization of twenty-four proteins from cytoplasmic ribosomes. + + + + + + + + +PARTIAL PROTEIN SEQUENCE OF 2-26 +CLEAVAGE OF INITIATOR METHIONINE + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +The action of N-terminal acetyltransferases on yeast ribosomal proteins. + + + + + + + + + +CLEAVAGE OF INITIATOR METHIONINE +ACETYLATION AT ALA-2 BY NATA + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-47 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +Crystal structure of the eukaryotic ribosome. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (4.0 ANGSTROMS) OF 80S RIBOSOME + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.0 ANGSTROMS) OF 80S RIBOSOME +SUBUNIT +SUBCELLULAR LOCATION + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +N-terminally acetylated by acetyltransferase NatA. + + +There are 2 genes for eL33 in yeast. + + +Belongs to the eukaryotic ribosomal protein eL33 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +Cytoplasm +Direct protein sequencing +Isopeptide bond +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + +N +D + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MAESHRLYVKGKHLSYQRSKRVNNPNVSLIKIEGVATPQDAQFYLGKRIAYVYRASKEVRGSKIRVMWGKVTRTHGNSGVVRATFRNNLPAKTFGASVRIFLYPSNI + + +P05739 +D6VZ82 +RL6B_YEAST + + +60S ribosomal protein L6-B + + +L17 + + +Large ribosomal subunit protein eL6-B + + +RP18 + + +YL16 + + + +RPL6B +RPL16B +RPL17B +YL16B +YLR448W +L9324.4 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Yeast ribosomal proteins: XIV. Complete nucleotide sequences of the two genes encoding Saccharomyces cerevisiae YL16. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Yeast ribosomal proteins. VIII. Isolation of two proteins and sequence characterization of twenty-four proteins from cytoplasmic ribosomes. + + + + + + + + +PARTIAL PROTEIN SEQUENCE OF 2-25 +CLEAVAGE OF INITIATOR METHIONINE + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +SUBUNIT +SUBCELLULAR LOCATION + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-128 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the large ribosomal subunit (LSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +Present with 38400 molecules/cell in log phase SD medium. + + +There are 2 genes for eL6 in yeast. + + +Belongs to the eukaryotic ribosomal protein eL6 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +Isopeptide bond +Phosphoprotein +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + +P +L + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MTAQQAPKWYPSEDVAAPKKTRKAVRPQKLRASLVPGTVLILLAGRFRGKRVVYLKHLEDNTLLVTGPFKVNGVPLRRVNARYVIATSTKVSVEGVNVEKFNVEYFAKEKLTKKEKKEANLFPEQQTKEIKTERVEDQKVVDKALLAEIKKTPLLKQYLSASFSLKNGDKPHLLKF + + +P48589 +D6W362 +Q02545 +RS12_YEAST + + +40S ribosomal protein S12 + + +Small ribosomal subunit protein eS12 + + + +RPS12 +YOR369C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Cloning and characterization of RAD17, a gene controlling cell cycle responses to DNA damage in Saccharomyces cerevisiae. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA / MRNA] + + + +Yeast homologue of ribosomal protein S12. + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 44774 / DBY747 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + + + + + + + +PRELIMINARY NUCLEOTIDE SEQUENCE [MRNA] OF 29-126 + +ATCC 204660 / DBY746 + + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-85; LYS-95 AND LYS-114 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (3.00 ANGSTROMS) OF 80S RIBOSOME +SUBUNIT +SUBCELLULAR LOCATION + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the small ribosomal subunit (SSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +Belongs to the eukaryotic ribosomal protein eS12 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Isopeptide bond +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + +KVA +EGLP + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSDVEEVVEVQEETVVEQTAEVTIEDALKVVLRTALVHDGLARGLRESTKALTRGEALLVVLVSSVTEANIIKLVEGLANDPENKVPLIKVADAKQLGEWAGLGKIDREGNARKVVGASVVVVKNWGAETDELSMIMEHFSQQ + + +P14127 +D6VT72 +RS17B_YEAST + + +40S ribosomal protein S17-B + + +RP51B + + +Small ribosomal subunit protein eS17-B + + + +RPS17B +RP51B +YDR447C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Two genes for ribosomal protein 51 of Saccharomyces cerevisiae complement and contribute to the ribosomes. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +SUBUNIT +SUBCELLULAR LOCATION + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel. + + +Component of the small ribosomal subunit (SSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). + + + +Cytoplasm + + + +Present with 30500 molecules/cell in log phase SD medium. + + +There are 2 genes for eS17 in yeast. + + +Belongs to the eukaryotic ribosomal protein eS17 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Reference proteome +Ribonucleoprotein +Ribosomal protein + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MGRVRTKTVKRASKALIERYYPKLTLDFQTNKRLCDEIATIQSKRLRNKIAGYTTHLMKRIQKGPVRGISFKLQEEERERKDQYVPEVSALDLSRSNGVLNVDNQTSDLVKSLGLKLPLSVINVSAQRDRRYRKRN + + +P05755 +D6VQI4 +RS9B_YEAST + + +40S ribosomal protein S9-B + + +RP21 + + +S13 + + +Small ribosomal subunit protein uS4-B + + +YP28 + + +YS11 + + + +RPS9B +RPS13B +SUP46 +YBR189W +YBR1317 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The yeast omnipotent suppressor SUP46 encodes a ribosomal protein which is a functional and structural homolog of the Escherichia coli S4 ram protein. + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +A 12.5 kb fragment of the yeast chromosome II contains two adjacent genes encoding ribosomal proteins and six putative new genes, one of which encodes a putative transcriptional factor. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Complete DNA sequence of yeast chromosome II. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Isolation of seventeen proteins and amino-terminal amino acid sequences of eight proteins from cytoplasmic ribosomes of yeast. + + + + + + + + +PROTEIN SEQUENCE OF 2-24 + + + +The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae. + + + + + + + +NOMENCLATURE +SUBUNIT + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The small-subunit processome is a ribosome assembly intermediate. + + + + + + + + + + +FUNCTION +INTERACTION WITH MPP10 AND SNORNA U3 +IDENTIFICATION IN SSU PROCESSOME +SUBCELLULAR LOCATION + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-184 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-184 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-184 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +The structure of the eukaryotic ribosome at 3.0 A resolution. + + + + + + + + + + + +SUBUNIT +SUBCELLULAR LOCATION + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-180 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A new system for naming ribosomal proteins. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NOMENCLATURE + + +Component of the ribosome, a large ribonucleoprotein complex responsible for the synthesis of proteins in the cell. The small ribosomal subunit (SSU) binds messenger RNAs (mRNAs) and translates the encoded message by selecting cognate aminoacyl-transfer RNA (tRNA) molecules. The large subunit (LSU) contains the ribosomal catalytic site termed the peptidyl transferase center (PTC), which catalyzes the formation of peptide bonds, thereby polymerizing the amino acids delivered by tRNAs into a polypeptide chain. The nascent polypeptides leave the ribosome through a tunnel in the LSU and interact with protein factors that function in enzymatic processing, targeting, and the membrane insertion of nascent chains at the exit of the ribosomal tunnel (PubMed:22096102). uS4 is involved in nucleolar processing of pre-18S ribosomal RNA and ribosome assembly (PubMed:15590835). + + +Component of the small ribosomal subunit (SSU). Mature yeast ribosomes consist of a small (40S) and a large (60S) subunit. The 40S small subunit contains 1 molecule of ribosomal RNA (18S rRNA) and 33 different proteins (encoded by 57 genes). The large 60S subunit contains 3 rRNA molecules (25S, 5.8S and 5S rRNA) and 46 different proteins (encoded by 81 genes) (PubMed:9559554, PubMed:22096102). Interacts with snoRNA U3. uS11 interacts with MPP10. Component of the ribosomal small subunit (SSU) processome composed of at least 40 protein subunits and snoRNA U3 (PubMed:15590835). + + + +Cytoplasm + + +Nucleus +Nucleolus + + + +Present with 63300 molecules/cell in log phase SD medium. + + +There are 2 genes for uS4 in yeast. + + +Belongs to the universal ribosomal protein uS4 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +Isopeptide bond +Nucleus +Phosphoprotein +Reference proteome +Ribonucleoprotein +Ribosomal protein +Ribosome biogenesis +RNA-binding +rRNA processing +rRNA-binding +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + +ESS +QSB + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MPRAPRTYSKTYSTPKRPYESSRLDAELKLAGEFGLKNKREIYRISFQLSKIRRAARDLLTRDEKDPKRLFEGNALIRRLVRVGVLSEDKKKLDYVLALKVEDFLERRLQTQVYKLGLAKSVHHARVLITQRHIAVGKQIVNIPSFMVRLDSEKHIDFAPTSPFGGARPGRVARRNAARKAEASGEAAEEAEDEE + + +P40075 +D3DM26 +SCS2_YEAST + + +Vesicle-associated membrane protein-associated protein SCS2 +VAMP-associated protein SCS2 + + +Choline sensitivity suppressor protein 2 + + +VAP homolog 1 + + + +SCS2 +YER120W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Cloning and sequence of the SCS2 gene, which can suppress the defect of INO1 expression in an inositol auxotrophic mutant of Saccharomyces cerevisiae. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome V. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + + + + + + +PROTEIN SEQUENCE OF 2-14; 85-113; 144-156 AND 166-180 +CLEAVAGE OF INITIATOR METHIONINE +ACETYLATION AT SER-2 +IDENTIFICATION BY MASS SPECTROMETRY + + + +The Saccharomyces cerevisiae SCS2 gene product, a homolog of a synaptobrevin-associated protein, is an integral membrane protein of the endoplasmic reticulum and is required for inositol metabolism. + + + + + + + + + + +TOPOLOGY +SUBCELLULAR LOCATION + + + +A conserved ER targeting motif in three families of lipid binding proteins and in Opi1p binds VAP. + + + + + + + + +FUNCTION +INTERACTION WITH OPI1 +SUBCELLULAR LOCATION + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Gene recruitment of the activated INO1 locus to the nuclear membrane. + + + + + + + +INTERACTION WITH OPI1 +SUBCELLULAR LOCATION + + + +A highly conserved binding site in vesicle-associated membrane protein-associated protein (VAP) for the FFAT motif of lipid-binding proteins. + + + + + + + +FUNCTION +MUTAGENESIS OF LYS-40; 41-THR-THR-42 AND LYS-120 + + + +Quantitative phosphoproteomics applied to the yeast pheromone signaling pathway. + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-106 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +YAL6B + + + + +Structural basis of FFAT motif-mediated ER targeting. + + + + + + + + + + + +FFAT MOTIF-BINDING +MUTAGENESIS OF LYS-84 AND LEU-86 + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-106 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Targets proteins containing a FFAT motif to endoplasmic reticulum membranes. Regulates phospholipid biosynthesis by modulating the subcellular localization of the transcriptional repressor OPI1. + + +Interacts with OPI1. + + + +P40075 + + +Q00402 + + +false +4 + + + +P40075 + + +P21957 + + +false +3 + + + +P40075 + + +P38713 + + +false +2 + + + +P40075 + + +Q07657 + + +false +4 + + + +P40075 + + +P39523 + + +false +4 + + + +Endoplasmic reticulum membrane +Single-pass type IV membrane protein + + +Nucleus membrane +Single-pass type IV membrane protein + + + +The MSP domain is required for binding to the FFAT motif of target proteins. + + +Present with 3497 molecules/cell in log phase SD medium. + + +Belongs to the VAMP-associated protein (VAP) (TC 9.B.17) family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +Direct protein sequencing +Endoplasmic reticulum +Membrane +Nucleus +Phosphoprotein +Reference proteome +Transmembrane +Transmembrane helix + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +K +N + + + + + +TT +AA + + + + + + +K +D + + + + + +L +D + + + + + +K +N + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSAVEISPDVLVYKSPLTEQSTEYASISNNSDQTIAFKVKTTAPKFYCVRPNAAVVAPGETIQVQVIFLGLTEEPAADFKCRDKFLVITLPSPYDLNGKAVADVWSDLEAEFKQQAISKKIKVKYLISPDVHPAQNQNIQENKETVEPVVQDSEPKEVPAVVNEKEVPAEPETQPPVQVKKEEVPPVVQKTVPHENEKQTSNSTPAPQNQIKEAATVPAENESSSMGIFILVALLILVLGWFYR + + +Q12118 +D6W273 +SGT2_YEAST + + +Small glutamine-rich tetratricopeptide repeat-containing protein 2 + + +SGT/UBP + + +Viral protein U-binding protein + + + +SGT2 +YOR007C +UNF346 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The sequence of a 30 kb fragment on the left arm of chromosome XV from Saccharomyces cerevisiae reveals 15 open reading frames, five of which correspond to previously identified genes. + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + + + + + + +PROTEIN SEQUENCE OF 131-142 AND 158-171 +IDENTIFICATION BY MASS SPECTROMETRY + + + +Small glutamine-rich protein/viral protein U-binding protein is a novel cochaperone that affects heat shock protein 70 activity. + + + + + + + + +FUNCTION + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +SGT2 and MDY2 interact with molecular chaperone YDJ1 in Saccharomyces cerevisiae. + + + + + + + + +INTERACTION WITH HSC82; HSP104; MDY2; SSA1 AND SSA2 + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-308 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Co-chaperone that binds to the molecular chaperone Hsp70 (SSA1 and SSA2). Regulates Hsp70 ATPase activity (By similarity). Required for recovery from heat shock. + + +Interacts with HSC82, HSP104, MDY2, SSA1 AND SSA2. + + + +Q12118 + + +P40515 + + +false +3 + + + +Q12118 + + +Q12125 + + +false +5 + + + +Q12118 + + +Q12285 + + +false +15 + + + +Q12118 + + +P22214 + + +false +4 + + + +Q12118 + + +Q12118 + + +false +4 + + + +Q12118 + + +P25491 + + +false +2 + + + +Cytoplasm + + + +Present with 9424 molecules/cell in log phase SD medium. + + +Belongs to the SGT family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Chaperone +Cytoplasm +Direct protein sequencing +Phosphoprotein +Reference proteome +Repeat +TPR repeat + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSASKEEIAALIVNYFSSIVEKKEISEDGADSLNVAMDCISEAFGFEREAVSGILGKSEFKGQHLADILNSASRVPESNKKDDAENVEINIPEDDAETKAKAEDLKMQGNKAMANKDYELAINKYTEAIKVLPTNAIYYANRAAAHSSLKEYDQAVKDAESAISIDPSYFRGYSRLGFAKYAQGKPEEALEAYKKVLDIEGDNATEAMKRDYESAKKKVEQSLNLEKTVPEQSRDADVDASQGASAGGLPDLGSLLGGGLGGLMNNPQLMQAAQKMMSNPGAMQNIQKMMQDPSIRQMAEGFASGGGTPNLSDLMNNPALRNMAGNLFGGAGAQSTDETPDNENKQ + + +P25582 +D6VQW3 +SPB1_YEAST + + +27S pre-rRNA (guanosine(2922)-2'-O)-methyltransferase +2.1.1.167 + + +2'-O-ribose RNA methyltransferase SPB1 + + +AdoMet-dependent rRNA methyltransferase SPB1 + + +S-adenosyl-L-methionine-dependent methyltransferase + + +Suppressor of PAB1 protein 1 + + + +SPB1 +YCL054W +YCL431 +YCL54W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The complete DNA sequence of yeast chromosome III. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + + + + + +SEQUENCE REVISION TO C-TERMINUS + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Nucleotide sequence of D10B, a BamHI fragment on the small-ring chromosome III of Saccharomyces cerevisiae. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 1-214 + + + +Spb1p is a putative methyltransferase required for 60S ribosomal subunit biogenesis in Saccharomyces cerevisiae. + + + + + + + + + +FUNCTION + + + +Spb1p is a yeast nucleolar protein associated with Nop1p and Nop58p that is able to bind S-adenosyl-L-methionine in vitro. + + + + + + + + +BINDING TO S-ADENOSYL-L-METHIONINE +INTERACTION WITH NOP1 AND NOP58 +SUBCELLULAR LOCATION + + + +60S pre-ribosome formation viewed from assembly in the nucleolus until export to the cytoplasm. + + + + + + + + + + +IDENTIFICATION IN THE PRE-60S RIBOSOMAL PARTICLE +IDENTIFICATION BY MASS SPECTROMETRY + + + +Functional redundancy of Spb1p and a snR52-dependent mechanism for the 2'-O-ribose methylation of a conserved rRNA position in yeast. + + + + + + + + +FUNCTION +CATALYTIC ACTIVITY +MUTAGENESIS OF ASP-52 + + + +Spb1p-directed formation of Gm2922 in the ribosome catalytic center occurs at a late processing stage. + + + + + + + +FUNCTION + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-455 AND SER-529 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-529 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-455; SER-464 AND SER-529 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Required for proper assembly of pre-ribosomal particles during the biogenesis of the 60S ribosomal subunit. Specifically methylates the guanosine in position 2922 of the 25S rRNA at the stage of 27S pre-rRNA maturation. Methylates also the uridine in position 2921 in the absence of methylation of this residue guided by snoRNA snR52 at the stage of 35S pre-rRNA maturation. + + + +guanosine(2922) in 27S pre-rRNA + S-adenosyl-L-methionine = 2'-O-methylguanosine(2922) in 27S pre-rRNA + H(+) + S-adenosyl-L-homocysteine + + + + + + + + + + + + +Component of the nucleolar and nucleoplasmic pre-60S ribosomal particle. Interacts with the snoRNA-associated proteins NOP1 and NOP58. + + + +P25582 + + +P43586 + + +false +4 + + + +P25582 + + +Q07896 + + +false +3 + + + +P25582 + + +Q12080 + + +false +3 + + + +P25582 + + +P36160 + + +false +6 + + + +Nucleus +Nucleolus + + + +Belongs to the class I-like SAM-binding methyltransferase superfamily. RNA methyltransferase RlmE family. SPB1 subfamily. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Coiled coil +Methyltransferase +Nucleus +Phosphoprotein +Reference proteome +Ribosome biogenesis +rRNA processing +S-adenosyl-L-methionine +Transferase + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +D +A + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MGKTQKKNSKGRLDRYYYLAKEKGYRARSSFKIIQINEKYGHFLEKSKVVIDLCAAPGSWCQVASKLCPVNSLIIGVDIVPMKPMPNVITFQSDITTEDCRSKLRGYMKTWKADTVLHDGAPNVGLGWVQDAFTQSQLTLQALKLAVENLVVNGTFVTKIFRSKDYNKLIWVFQQLFEKVEATKPPASRNVSAEIFVVCKGFKAPKRLDPRLLDPKEVFEELPDGQQNMESKIYNPEKKVRKRQGYEEGDNLLYHETSILDFVRTEDPISMLGEMNKFTIDENDHEWKILKKLKQTTDEFRSCIEDLKVLGKKDFKMILRWRKIAREILGIEVKDDAKTEIEVVPLTEEEQIEKDLQGLQEKQRLNVKRERRRKNEMKQKELQRMQMNMITPTDIGIEAASLGKESLFNLKTAEKTGILNDLAKGKKRMIFTDDELAKDNDIYIDENIMIKDKDSAADADDLESELNAMYSDYKTRRSERDAKFRAKQARGGDNEEEWTGFNEGSLEKKEEEGKDYIEDNDDEGVEGDSDDDEAITNLISKLKGQEGDHKLSSKARMIFNDPIFNNVEPDLPVNTVNDGIMSSESVGDISKLNKKRKHEEMHQKQDEADSSDESSSDDSDFEIVANDNASEEFDSDYDSEEEKNQTKKEKHSRDIDIATVEAMTLAHQLALGQKNKHDLVDEGFNRYTFRDTENLPDWFLEDEKEHSKINKPITKEAAMAIKEKIKAMNARPIKKVAEAKARKRMRAVARLEKIKKKAGLINDDSDKTEKDKAEEISRLMRKVTKKPKTKPKVTLVVASGRNKGLAGRPKGVKGKYKMVDGVMKNEQRALRRIAKKHHKKK + + +P32558 +D6VTU8 +SPT16_YEAST + + +FACT complex subunit SPT16 + + +Cell division control protein 68 + + +Facilitates chromatin transcription complex subunit SPT16 + + +Suppressor of Ty protein 16 + + + +SPT16 +CDC68 +SSF1 +YGL207W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +CDC68, a yeast gene that affects regulation of cell proliferation and transcription, encodes a protein with a highly acidic carboxyl terminus. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Mutations in SPT16/CDC68 suppress cis- and trans-acting mutations that affect promoter function in Saccharomyces cerevisiae. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Analysis of 21.7 kb DNA sequence from the left arm of chromosome VII reveals 11 open reading frames: two correspond to new genes. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome VII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Organization of the yeast URA2 gene: identification of a defective dihydroorotase-like domain in the multifunctional carbamoylphosphate synthetase-aspartate transcarbamylase complex. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 1-158 + +ATCC 28383 / FL100 / VTT C-80102 + + + + +The Saccharomyces cerevisiae DNA polymerase alpha catalytic subunit interacts with Cdc68/Spt16 and with Pob3, a protein similar to an HMG1-like protein. + + + + + + + +INTERACTION WITH POL1 + + + +The yeast protein complex containing cdc68 and pob3 mediates core-promoter repression through the cdc68 N-terminal domain. + + + + + + + + + + + +INTERACTION WITH POB3 +MUTAGENESIS OF GLY-836 + + + +Characterization of the CP complex, an abundant dimer of Cdc68 and Pob3 proteins that regulates yeast transcriptional activation and chromatin repression. + + + + + + + + +INTERACTION WITH POB3 + + + +Spt16 and Pob3 of Saccharomyces cerevisiae form an essential, abundant heterodimer that is nuclear, chromatin-associated, and copurifies with DNA polymerase alpha. + + + + + + + + +FUNCTION +INTERACTION WITH POB3 +SUBCELLULAR LOCATION + + + +The something about silencing protein, Sas3, is the catalytic subunit of NuA3, a yTAF(II)30-containing HAT complex that interacts with the Spt16 subunit of the yeast CP (Cdc68/Pob3)-FACT complex. + + + + + + + + + + +INTERACTION WITH SAS3 + + + +Spt16-Pob3 and the HMG protein Nhp6 combine to form the nucleosome-binding factor SPN. + + + + + + + + + + + +ASSOCIATION OF THE SPT16-POB3 DIMER WITH NHP6A/B AND NUCLEOSOMES +FUNCTION OF THE FACT COMPLEX +MUTAGENESIS OF PRO-565; PRO-570; 848-THR--ASP-850 AND PRO-920 + + + +A bipartite yeast SSRP1 analog comprised of Pob3 and Nhp6 proteins modulates transcription. + + + + + + + + +ASSOCIATION OF THE SPT16-POB3 DIMER WITH NHP6A/B + + + +The Paf1 complex physically and functionally associates with transcription elongation factors in vivo. + + + + + + + + + + + + + + +INTERACTION WITH PAF1 COMPLEX + + + +Defects in SPT16 or POB3 (yFACT) in Saccharomyces cerevisiae cause dependence on the Hir/Hpc pathway: polymerase passage may degrade chromatin structure. + + + + + + + + + + + + + +FUNCTION OF THE FACT COMPLEX + + + +RNA polymerase II elongation factors of Saccharomyces cerevisiae: a targeted proteomics approach. + + + + + + + + + + + + + + + +INTERACTION WITH CHD1; CTR9; PAF1; CDC73; CKA1; CKA2; CKB1; CKB2 AND HISTONES + + + +Chromatin remodeling protein Chd1 interacts with transcription elongation factors and localizes to transcribed genes. + + + + + + + + + + + + + +INTERACTION WITH CHD1 + + + +Multiple Nhp6 molecules are required to recruit Spt16-Pob3 to form yFACT complexes and to reorganize nucleosomes. + + + + + + + + +ASSOCIATION OF THE SPT16-POB3 DIMER WITH NHP6A/B + + + +The FACT complex travels with elongating RNA polymerase II and is important for the fidelity of transcriptional initiation in vivo. + + + + + + + +FUNCTION OF THE FACT COMPLEX +SUBCELLULAR LOCATION + + + + + + + + +ERRATUM OF PUBMED:14585989 + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Transcription elongation factors repress transcription initiation from cryptic sites. + + + + + + + + +FUNCTION OF THE FACT COMPLEX + + + +Transitions in RNA polymerase II elongation complexes at the 3' ends of genes. + + + + + + + + + + +SUBCELLULAR LOCATION + + + +Structural features of nucleosomes reorganized by yeast FACT and its HMG box component, Nhp6. + + + + + + + + +FUNCTION OF THE FACT COMPLEX + + + +The yeast FACT complex has a role in transcriptional initiation. + + + + + + + + + + +FUNCTION OF THE FACT COMPLEX + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-526 AND SER-765 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Component of the FACT complex, a general chromatin factor that acts to reorganize nucleosomes. The FACT complex is involved in multiple processes that require DNA as a template such as mRNA elongation, DNA replication and DNA repair. During transcription elongation the FACT complex acts as a histone chaperone that both destabilizes and restores nucleosomal structure. It facilitates the passage of RNA polymerase II and transcription by promoting the dissociation of one histone H2A-H2B dimer from the nucleosome, then subsequently promotes the reestablishment of the nucleosome following the passage of RNA polymerase II. Transcription elongation is promoted by the repression of transcription initiation from cryptic sites. Also acts in establishing transcription initiation complexes and promotes SPT15/TBP-binding to a TATA box. Together with replication factor-A protein (RPA), FACT may play a role in nucleosome deposition during DNA replication. + + +Forms a stable heterodimer with POB3. The SPT16-POB3 dimer weakly associates with multiple molecules of NHP6 (NHP6A or NHP6B) to form the FACT (yFACT or SNP) complex. The FACT complex interacts with the CK2 (casein kinase II) complex subunits CKA1, CKA2, CKB1 and CKB2 and the components of the transcription machinery CHD1, CTR9, PAF1 and CDC73. The FACT complex interacts with the PAF1 complex. SPT16 interacts with SAS3 and POL1. + + + +P32558 + + +Q04636 + + +false +8 + + + +P32558 + + +P32908 + + +false +2 + + + +Nucleus + + +Chromosome + +Colocalizes with RNA polymerase II on chromatin. Recruited to actively transcribed loci. + + +Present with 18500 molecules/cell in log phase SD medium. + + +Belongs to the peptidase M24 family. SPT16 subfamily. + + +Although related to the peptidase M24 family, this protein lacks conserved active site residues suggesting that it may lack peptidase activity. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Activator +Chromosome +Coiled coil +DNA damage +DNA repair +DNA replication +Nucleus +Phosphoprotein +Reference proteome +Repressor +Transcription +Transcription regulation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +P +S + + + + + +P +L + + + + + +G +D + + + + + +TTD +IIY + + + + + + +P +L + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MEELNIDFDVFKKRIELLYSKYNEFEGSPNSLLFVLGSSNAENPYQKTTILHNWLLSYEFPATLIALVPGKVIIITSSAKAKHLQKAIDLFKDPESKITLELWQRNNKEPELNKKLFDDVIALINSAGKTVGIPEKDSYQGKFMTEWNPVWEAAVKENEFNVIDISLGLSKVWEVKDVNEQAFLSVSSKGSDKFMDLLSNEMVRAVDEELKITNAKLSDKIENKIDDVKFLKQLSPDLSALCPPNYKFNFDLLDWTYSPIIQSGKKFDLRVSARSTNDQLYGNGCILASCGIRYNNYCSNITRTFLIDPSEEMANNYDFLLTLQKEIVTNILKPGRTPKEVYESVIEYIEKTKPELVPNFTKNIGSLIGLEFRDSNFILNVKNDYRKIQRGDCFNISFGFNNLKDSQSANNYALQLADTVQIPLDETEPPRFLTNYTKAKSQISFYFNNEEEDNNKKKSSPATKVPSKPDRNSKILRTKLRGEARGGAEDAQKEQIRKENQKKLHEKLEKNGLLRFSAADANGPDSEPRQYFKKYESYVRDSQLPTNIRDLRIHVDWKSQTIILPIYGRPVPFHINSYKNGSKNEEGEYTYLRLNFNSPGSSGGISKKVEELPYEESADNQFVRSITLRSKDGDRMSETFKQIADLKKEATKREQERKALADVVQQDKLIENKTGRTKRLDQIFVRPNPDTKRVPSTVFIHENGIRFQSPLRTDSRIDILFSNIKNLIFQSCKGELIVVIHIHLKNPILMGKKKIQDVQFYREASDMSVDETGGGRRGQSRFRRYGDEDELEQEQEERRKRAALDKEFKYFADAIAEASNGLLTVENTFRDLGFQGVPNRSAVFCMPTTDCLVQLIEPPFLVINLEEVEICILERVQFGLKNFDMVFVYKDFNKPVTHINTVPIESLDFLKQWLTDMDIPYTVSTINLNWATIMKSLQDDPYQFFLDGGWNFLATGSDDEASDESEEEVSEYEASEDDVSDESAFSEDEEGSEVDDDISGDESEDYTGDESEEGEDWDELEKKAARADRGANFRD + + +P39015 +D6VYE5 +STM1_YEAST + + +Suppressor protein STM1 + + +3BP1 + + +GU4 nucleic-binding protein 2 +G4p2 protein + + +POP2 multicopy suppressor protein 4 + + +Ribosomal subunits association factor +AF + + +TOM1 suppressor protein 1 + + +Triplex-binding protein 1 + + + +STM1 +MPT4 +STO1 +YLR150W +L9634.1 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Dhh1p, a putative RNA helicase, associates with the general transcription factors Pop2p and Ccr4p from Saccharomyces cerevisiae. + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +A high dose of the STM1 gene suppresses the temperature sensitivity of the tom1 and htr1 mutants in Saccharomyces cerevisiae. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +A yeast gene product, G4p2, with a specific affinity for quadruplex nucleic acids. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] +PROTEIN SEQUENCE OF 122-145 AND 146-170 +DNA-BINDING + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + + + + + + +PROTEIN SEQUENCE OF 2-27; 34-46 AND 263-273 +CLEAVAGE OF INITIATOR METHIONINE +ACETYLATION AT SER-2 +IDENTIFICATION BY MASS SPECTROMETRY + + + +The yeast STM1 gene encodes a purine motif triple helical DNA-binding protein. + + + + + + + + +PROTEIN SEQUENCE OF 106-114 AND 265-273 +DNA-BINDING + + + +Similarity between the association factor of ribosomal subunits and the protein Stm1p from Saccharomyces cerevisiae. + + + + + + + + + + + +PROTEIN SEQUENCE OF 110-137 + + + +The proteasomal substrate Stm1 participates in apoptosis-like cell death in yeast. + + + + + + + + + + + + + +SUBCELLULAR LOCATION + + + +STM1, a gene which encodes a guanine quadruplex binding protein, interacts with CDC13 in Saccharomyces cerevisiae. + + + + + + + +INTERACTION WITH CDC13 + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Stm1p, a G4 quadruplex and purine motif triplex nucleic acid-binding protein, interacts with ribosomes and subtelomeric Y' DNA in Saccharomyces cerevisiae. + + + + + + + + + +FUNCTION +SUBUNIT +SUBCELLULAR LOCATION + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-118 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-55 AND SER-229 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-118 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-118 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-46; LYS-121; LYS-171 AND LYS-184 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Binds specifically G4 quadruplex (these are four-stranded right-handed helices, stabilized by guanine base quartets) and purine motif triplex (characterized by a third, antiparallel purine-rich DNA strand located within the major groove of a homopurine stretch of duplex DNA) nucleic acid structures. These structures may be present at telomeres or in rRNAs. Acts with CDC13 to control telomere length homeostasis. Involved in the control of the apoptosis-like cell death. + + +Interacts with CDC13. Associates with mature 80S ribosomes. Associates with the telomere-proximal Y' element. + + + +P39015 + + +P33203 + + +false +2 + + + +P39015 + + +P39940 + + +false +3 + + + +Cytoplasm + + +Nucleus + + +Cytoplasm +Perinuclear region + +Concentrated in the perinuclear region. + + +Present with 46842 molecules/cell in log phase SD medium. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +Cytoplasm +Direct protein sequencing +DNA-binding +Isopeptide bond +Nucleus +Phosphoprotein +Reference proteome +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +E +Q + + + + + +K +E + + + + + +E +G + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSNPFDLLGNDVEDADVVVLPPKEIVKSNTSSKKADVPPPSADPSKARKNRPRPSGNEGAIRDKTAGRRNNRSKDVTDSATTKKSNTRRATDRHSRTGKTDTKKKVNQGWGDDKKELSAEKEAQADAAAEIAEDAAEAEDAGKPKTAQLSLQDYLNQQANNQFNKVPEAKKVELDAERIETAEKEAYVPATKVKNVKSKQLKTKEYLEFDATFVESNTRKNFGDRNNNSRNNFNNRRGGRGARKGNNTANATNSANTVQKNRNIDVSNLPSLA + + +P53312 +D6VV24 +SUCB_YEAST + + +Succinate--CoA ligase [ADP-forming] subunit beta, mitochondrial +6.2.1.5 + + +Succinyl-CoA synthetase beta chain +SCS-beta + + + +LSC2 +YGR244C +G8625 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Sequencing of a 9.9 kb segment on the right arm of yeast chromosome VII reveals four open reading frames, including PFK1, the gene coding for succinyl-CoA synthetase (beta-chain) and two ORFs sharing homology with ORFs of the yeast chromosome VIII. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome VII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Genes of succinyl-CoA ligase from Saccharomyces cerevisiae. + + + + + + + + + +FUNCTION +CATALYTIC ACTIVITY + + + +The proteome of Saccharomyces cerevisiae mitochondria. + + + + + + + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + +ATCC 76625 / YPH499 + + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-102 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-102; SER-263 AND SER-276 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Succinyl-CoA synthetase functions in the citric acid cycle (TCA), coupling the hydrolysis of succinyl-CoA to the synthesis of ATP and thus represents the only step of substrate-level phosphorylation in the TCA (PubMed:9874242). The beta subunit provides nucleotide specificity of the enzyme and binds the substrate succinate, while the binding sites for coenzyme A and phosphate are found in the alpha subunit (By similarity). + + + +ATP + CoA + succinate = ADP + phosphate + succinyl-CoA + + + + + + + + + + + + +Mg(2+) + + +Binds 1 Mg(2+) ion per subunit. + + +Carbohydrate metabolism; tricarboxylic acid cycle; succinate from succinyl-CoA (ligase route): step 1/1. + + +Heterodimer of an alpha and a beta subunit. + + + +Mitochondrion + + + +Belongs to the succinate/malate CoA ligase beta subunit family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +ATP-binding +Ligase +Magnesium +Metal-binding +Mitochondrion +Nucleotide-binding +Phosphoprotein +Reference proteome +Transit peptide +Tricarboxylic acid cycle + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MYSRKSLSLISKCGQLSRLNAQAALQARRHLSIHEYRSAQLLREYGIGTPEGFPAFTPEEAFEAAKKLNTNKLVIKAQALTGGRGKGHFDTGYKSGVHMIESPQQAEDVAKEMLNHNLITKQTGIAGKPVSAVYIVKRVDTKHEAYLSILMDRQTKKPMIIASSQGGMNIEEVAERTPDAIKKFSIETSKGLSPQMAKDVAKSLGFSPDAQDEAAKAVSNLYKIFMERDATQVEINPLSEIEHDPTHKIMCTDAKFGFDDNASFRQEKIYSWRDLSQEDPDEVKAKKYDLNFVKLKGNIGCLVNGAGLAMATMDVIKLNGGDPANFLDCGGGATPETIKQGFELILSNKNVDAIFVNIFGGIVRCDYVALGLVEAARELEVRVPIVARLQGTKVEEGRDIINKSGVKIYSFDELDPAAKKVVELTQN + + +P15705 +D6W293 +STI1_YEAST + + +Heat shock protein STI1 + + + +STI1 +YOR027W +OR26.17 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Isolation and characterization of STI1, a stress-inducible gene from Saccharomyces cerevisiae. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Snap helix with knob and hole: essential repeats in S. pombe nuclear protein nuc2+. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Protein identifications for a Saccharomyces cerevisiae protein database. + + + + + + + + + + + + + +PROTEIN SEQUENCE OF 76-93 + +ATCC 204508 / S288c + + + + +Expanding family. + + + + + + + + + +DOMAINS TPR REPEATS + + + +Identification of a 60-kilodalton stress-related protein, p60, which interacts with hsp90 and hsp70. + + + + + + + + + + + + +CHARACTERIZATION + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-227 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of the glycoproteome in Saccharomyces cerevisiae reveals new roles for protein glycosylation in eukaryotes. + + + + + + + + + + + +GLYCOSYLATION [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-99; LYS-168 AND LYS-384 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +May play a role in mediating the heat shock response of some HSP70 genes. It is required for optimal growth of yeast cells at both low and high temperature. + + +Part of a larger complex that includes HSP70, HSP90, and immunophilins. + + + +P15705 + + +P15108 + + +false +3 + + + +P15705 + + +P02829 + + +false +18 + + + +Cytoplasm + + + +By heat shock and canavanine. + + +N-glycosylated. + + +Present with 67600 molecules/cell in log phase SD medium. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Cytoplasm +Direct protein sequencing +Glycoprotein +Isopeptide bond +Phosphoprotein +Reference proteome +Repeat +Stress response +TPR repeat +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSLTADEYKQQGNAAFTAKDYDKAIELFTKAIEVSETPNHVLYSNRSACYTSLKKFSDALNDANECVKINPSWSKGYNRLGAAHLGLGDLDEAESNYKKALELDASNKAAKEGLDQVHRTQQARQAQPDLGLTQLFADPNLIENLKKNPKTSEMMKDPQLVAKLIGYKQNPQAIGQDLFTDPRLMTIMATLMGVDLNMDDINQSNSMPKEPETSKSTEQKKDAEPQSDSTTSKENSSKAPQKEESKESEPMEVDEDDSKIEADKEKAEGNKFYKARQFDEAIEHYNKAWELHKDITYLNNRAAAEYEKGEYETAISTLNDAVEQGREMRADYKVISKSFARIGNAYHKLGDLKKTIEYYQKSLTEHRTADILTKLRNAEKELKKAEAEAYVNPEKAEEARLEGKEYFTKSDWPNAVKAYTEMIKRAPEDARGYSNRAAALAKLMSFPEAIADCNKAIEKDPNFVRAYIRKATAQIAVKEYASALETLDAARTKDAEVNNGSSAREIDQLYYKASQQRFQPGTSNETPEETYQRAMKDPEVAAIMQDPVMQSILQQAQQNPAALQEHMKNPEVFKKIQTLIAAGIIRTGR + + +P38825 +D3DL67 +TOM71_YEAST + + +Protein TOM71 + + +71 kDa mitochondrial outer membrane protein + + + +TOM71 +TOM72 +YHR117W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Complete nucleotide sequence of Saccharomyces cerevisiae chromosome VIII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Identification of a third yeast mitochondrial Tom protein with tetratrico peptide repeats. + + + + + + + + +SUBCELLULAR LOCATION + + + +Tom71, a novel homologue of the mitochondrial preprotein receptor Tom70. + + + + + + + + + +INTERACTION WITH TOM40 AND TOM70 +SUBCELLULAR LOCATION + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +The proteome of Saccharomyces cerevisiae mitochondria. + + + + + + + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + +ATCC 76625 / YPH499 + + + + +Integral membrane proteins in the mitochondrial outer membrane of Saccharomyces cerevisiae. + + + + + + + + + + + + + +SUBCELLULAR LOCATION +IDENTIFICATION BY MASS SPECTROMETRY + + + +Proteomic analysis of the yeast mitochondrial outer membrane reveals accumulation of a subclass of preproteins. + + + + + + + + + + + + + + +SUBCELLULAR LOCATION +IDENTIFICATION BY MASS SPECTROMETRY + + + +Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae. + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-55 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ADR376 + + + + +Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-55 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Tetratricopeptide repeat proteins Tom70 and Tom71 mediate yeast mitochondrial morphogenesis. + + + + + + + + +FUNCTION +INTERACTION WITH MBF1 + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-55 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-55 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Involved in MBF1-mediated mitochondrial morphogenesis. + + +Interacts with TOM40, TOM70 and MBF1. + + + +P38825 + + +P11484 + + +false +2 + + + +Mitochondrion outer membrane +Single-pass membrane protein + + + +Present with 4110 molecules/cell in log phase SD medium. + + +Belongs to the Tom70 family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Membrane +Mitochondrion +Mitochondrion outer membrane +Phosphoprotein +Reference proteome +Repeat +TPR repeat +Transmembrane +Transmembrane helix + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MAENSLLRFITKNKVAILATVSAGTAAVGAYVYYQQIKQQQQQQLKGTKDNRRQSEAFAGQNEDEADLKDDGSVVSGSNKRKKKKNKRKRNNKAKSGEGFDYPSLPNGEPDIAQLKGLSPSQRQAYAVQLKNRGNHFFTAKNFNEAIKYYQYAIELDPNEPVFYSNISACYISTGDLEKVIEFTTKALEIKPDHSKALLRRASANESLGNFTDAMFDLSVLSLNGDFDGASIEPMLERNLNKQAMKVLNENLSKDEGRGSQVLPSNTSLASFFGIFDSHLEVSSVNTSSNYDTAYALLSDALQRLYSATDEGYLVANDLLTKSTDMYHSLLSANTVDDPLRENAALALCYTGIFHFLKNNLLDAQVLLQESINLHPTPNSYIFLALTLADKENSQEFFKFFQKAVDLNPEYPPTYYHRGQMYFILQDYKNAKEDFQKAQSLNPENVYPYIQLACLLYKQGKFTESEAFFNETKLKFPTLPEVPTFFAEILTDRGDFDTAIKQYDIAKRLEEVQEKIHVGIGPLIGKATILARQSSQDPTQLDEEKFNAAIKLLTKACELDPRSEQAKIGLAQLKLQMEKIDEAIELFEDSAILARTMDEKLQATTFAEAAKIQKRLRADPIISAKMELTLARYRAKGML + + +P38349 +D6VQR9 +UBX7_YEAST + + +UBX domain-containing protein 7 + + + +UBX7 +YBR273C +YBR1741 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Complete DNA sequence of yeast chromosome II. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Shp1 and Ubx2 are adaptors of Cdc48 involved in ubiquitin-dependent protein degradation. + + + + + + + + + +INTERACTION WITH CDC48 + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-388 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-388 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Sites of ubiquitin attachment in Saccharomyces cerevisiae. + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-19 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Involved in CDC48-dependent protein degradation through the ubiquitin/proteasome pathway. + + +Interacts with CDC48. + + + +P38349 + + +P25694 + + +false +4 + + + +P38349 + + +Q12743 + + +false +3 + + + +Endoplasmic reticulum + + + +Present with 2190 molecules/cell in log phase SD medium. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Endoplasmic reticulum +Isopeptide bond +Phosphoprotein +Reference proteome +Ubl conjugation +Ubl conjugation pathway + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MLEALFRDSVEEAINDSIKEGVVLAVYNTARDDQWLKSWFKGDDVSLDTLAEHSIWLRLVKDTEQFQLFEQVFPNVVVPSIYLIRAGKIELIIQGEDDRHWEKLLACIGIKDKKAGESSSRETNPGLAREEKSSRDVHRKNARERIAETTLEIQRREQLKQRKLAEEERERIIRLVRADRAERKALDETHHRTLDDDKPLDVHDYIKDAQKLHSSKCVLQIRMTDGKTLKHEFNSSETLNDVRKWVDVNRTDGDCPYSFHRGIPRVTFKDSDELKTLETLELTPRSALLLKPLETQNSGLSVTGMEGPSLLGRLYKGFSTWWHNDKDPEVTSQREETSKPNRHEVRSSTPLSGAASSSCFQYNNVREPVQSSAHASPMLTPSGTRYPSETNLTTSRSVSPNVFQFVNNDHQEDPEDPTTFNGNNVHLEKKKDEDKK + + +P17255 +D6VRG7 +O74301 +Q9Y7W5 +VATA_YEAST + + +V-type proton ATPase catalytic subunit A +V-ATPase subunit A +7.1.2.2 + + +Vacuolar proton pump subunit A + + + +Endonuclease PI-SceI +3.1.-.- + + +Sce VMA intein + + +VMA1-derived endonuclease +VDE + + + + +VMA1 +CLS8 +TFP1 +YDL185W +D1286 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Molecular structure of a gene, VMA1, encoding the catalytic subunit of H(+)-translocating adenosine triphosphatase from vacuolar membranes of Saccharomyces cerevisiae. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] +PROTEIN SEQUENCE OF 181-196; 815-820; 826-836; 862-879; 925-936 AND 1004-1013 +SUBUNIT + +ATCC 26786 / X2180-1A + + + + +New open reading frames, one of which is similar to the nifV gene of Azotobacter vinelandii, found on a 12.5 kbp fragment of chromosome IV of Saccharomyces cerevisiae. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 96604 / S288c / FY1679 + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Protein phosphatase 2A in Saccharomyces cerevisiae: effects on cell growth and bud morphogenesis. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 1-34 + +ATCC 208353 / W303-1A + + + + + + + + + +PROTEIN SEQUENCE OF 2-10; 52-63; 115-136; 173-178; 181-207; 220-239; 264-272; 770-784; 804-814; 826-842; 853-861; 918-937; 940-959; 1004-1014 AND 1058-1065 +CLEAVAGE OF INITIATOR METHIONINE +ACETYLATION AT ALA-2 +IDENTIFICATION BY MASS SPECTROMETRY + + + +Protein-splicing reaction via a thiazolidine intermediate: crystal structure of the VMA1-derived endonuclease bearing the N and C-terminal propeptides. + + + + + + + + + + + +PROTEIN SEQUENCE OF 2-6 +CLEAVAGE OF INITIATOR METHIONINE +MUTAGENESIS OF CYS-284; HIS-362; ASN-737 AND CYS-738 +X-RAY CRYSTALLOGRAPHY (2.1 ANGSTROMS) OF 274-747 + + + +A dominant trifluoperazine resistance gene from Saccharomyces cerevisiae has homology with F0F1 ATP synthase and confers calcium-sensitive growth. + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 41-1071 + + + +Protein splicing converts the yeast TFP1 gene product to the 69-kD subunit of the vacuolar H(+)-adenosine triphosphatase. + + + + + + + + + + + +PROTEIN SPLICING + + + +Mutations at the putative junction sites of the yeast VMA1 protein, the catalytic subunit of the vacuolar membrane H(+)-ATPase, inhibit its processing by protein splicing. + + + + + + + +MUTAGENESIS OF CYS-284 AND CYS-738 + + + +Protein splicing of the yeast TFP1 intervening protein sequence: a model for self-excision. + + + + + + + + + +SELF-SPLICING MECHANISM + + + +Homing of a DNA endonuclease gene by meiotic gene conversion in Saccharomyces cerevisiae. + + + + + + + +FUNCTION OF VDE + + + +Skp1 forms multiple protein complexes, including RAVE, a regulator of V-ATPase assembly. + + + + + + + + + +INTERACTION WITH RAV1 AND RAV2 + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Homing in on an endosymbiotic endonuclease. + + + + + + +REVIEW + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-131; SER-858 AND SER-928 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. + + + + + + + + + + + + + + + + + + + + + +ACETYLATION [LARGE SCALE ANALYSIS] AT ALA-2 +CLEAVAGE OF INITIATOR METHIONINE [LARGE SCALE ANALYSIS] +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Crystal structure of PI-SceI, a homing endonuclease with protein splicing activity. + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.4 ANGSTROMS) OF PI-SCE I + + + +Probing the structure of the PI-SceI-DNA complex by affinity cleavage and affinity photocross-linking. + + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.0 ANGSTROMS) OF PI-SCE I + + + +Structural insights into the protein splicing mechanism of PI-SceI. + + + + + + + + +X-RAY CRYSTALLOGRAPHY (2.1 ANGSTROMS) OF 283-741 +MUTAGENESIS OF CYS-284 AND ASN-737 + + + +High resolution crystal structure of domain I of the Saccharomyces cerevisiae homing endonuclease PI-SceI. + + + + + + + + + +X-RAY CRYSTALLOGRAPHY (1.35 ANGSTROMS) OF 284-465 + + +Catalytic subunit of the peripheral V1 complex of vacuolar ATPase. V-ATPase (vacuolar ATPase) is responsible for acidifying a variety of intracellular compartments in eukaryotic cells. It is an electrogenic proton pump that generates a proton motive force of 180 mV, inside positive and acidic, in the vacuolar membrane vesicles. It may participate in maintenance of cytoplasmic Ca(2+) homeostasis. This is a catalytic subunit. + + +PI-SceI is an endonuclease that can cleave at a site present in a VMA1 allele that lacks the derived endonuclease segment of the open reading frame; cleavage at this site only occurs during meiosis and initiates 'homing', a genetic event that converts a VMA1 allele lacking VDE into one that contains it. + + + +ATP + 4 H(+)(in) + H2O = ADP + 5 H(+)(out) + phosphate + + + + + + + + + + +V-ATPase is a heteromultimeric enzyme composed of a peripheral catalytic V1 complex (components A to H) attached to an integral membrane V0 proton pore complex (components: a, c, c', c'', d and e). Interacts with RAV1 and RAV2 components of the RAVE complex, which are essential for the stability and assembly of V-ATPase. + + + +P17255 + + +P47104 + + +false +2 + + + +P17255 + + +P32366 + + +false +6 + + + +Endomembrane system + + +Vacuole membrane + +Membranes of various intracellular acidic compartments. + + +This protein undergoes a protein self splicing that involves a post-translational excision of the VDE intervening region (intein) followed by peptide ligation. + + +Present with 199895 molecules/cell in log phase SD medium. + + +Belongs to the ATPase alpha/beta chains family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +3D-structure +Acetylation +ATP-binding +Autocatalytic cleavage +Direct protein sequencing +DNA-binding +Endonuclease +Hydrogen ion transport +Hydrolase +Intron homing +Ion transport +Membrane +Nuclease +Nucleotide-binding +Phosphoprotein +Protein splicing +Reference proteome +Translocase +Transport +Vacuole + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +C +S + + + + + +H +N + + + + + +N +S + + + + + +C +S + + + + + +G +D + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MAGAIENARKEIKRISLEDHAESEYGAIYSVSGPVVIAENMIGCAMYELVKVGHDNLVGEVIRIDGDKATIQVYEETAGLTVGDPVLRTGKPLSVELGPGLMETIYDGIQRPLKAIKEESQSIYIPRGIDTPALDRTIKWQFTPGKFQVGDHISGGDIYGSVFENSLISSHKILLPPRSRGTITWIAPAGEYTLDEKILEVEFDGKKSDFTLYHTWPVRVPRPVTEKLSADYPLLTGQRVLDALFPCVQGGTTCIPGAFGCGKTVISQSLSKYSNSDAIIYVGCFAKGTNVLMADGSIECIENIEVGNKVMGKDGRPREVIKLPRGRETMYSVVQKSQHRAHKSDSSREVPELLKFTCNATHELVVRTPRSVRRLSRTIKGVEYFEVITFEMGQKKAPDGRIVELVKEVSKSYPISEGPERANELVESYRKASNKAYFEWTIEARDLSLLGSHVRKATYQTYAPILYENDHFFDYMQKSKFHLTIEGPKVLAYLLGLWIGDGLSDRATFSVDSRDTSLMERVTEYAEKLNLCAEYKDRKEPQVAKTVNLYSKVVRGNGIRNNLNTENPLWDAIVGLGFLKDGVKNIPSFLSTDNIGTRETFLAGLIDSDGYVTDEHGIKATIKTIHTSVRDGLVSLARSLGLVVSVNAEPAKVDMNGTKHKISYAIYMSGGDVLLNVLSKCAGSKKFRPAPAAAFARECRGFYFELQELKEDDYYGITLSDDSDHQFLLANQVVVHNCGERGNEMAEVLMEFPELYTEMSGTKEPIMKRTTLVANTSNMPVAAREASIYTGITLAEYFRDQGKNVSMIADSSSRWAEALREISGRLGEMPADQGFPAYLGAKLASFYERAGKAVALGSPDRTGSVSIVAAVSPAGGDFSDPVTTATLGITQVFWGLDKKLAQRKHFPSINTSVSYSKYTNVLNKFYDSNYPEFPVLRDRMKEILSNAEELEQVVQLVGKSALSDSDKITLDVATLIKEDFLQQNGYSTYDAFCPIWKTFDMMRAFISYHDEAQKAVANGANWSKLADSTGDVKHAVSSSKFFEPSRGEKEVHGEFEKLLSTMQERFAESTD + + +Q12141 +D6VUG1 +YG11B_YEAST + + +Transposon Ty1-GR1 Gag-Pol polyprotein + + +Gag-Pol-p199 + + +TY1A-TY1B + + +Transposon Ty1 TYA-TYB polyprotein + + +p190 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Ty1 protease +PR +3.4.23.- + + +Pol-p20 + + +p23 + + + + +Integrase +IN + + +Pol-p71 + + +p84 + + +p90 + + + + +Reverse transcriptase/ribonuclease H +RT +RT-RH +2.7.7.49 +2.7.7.7 +3.1.26.4 + + +Pol-p63 + + +p60 + + + + +TY1B-GR1 +YGRWTy1-1 POL +YGR027W-B +G4054 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome VII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + + +Reverse transcriptase and integrase of the Saccharomyces cerevisiae Ty1 element. + + + + + + + + +REVIEW +DOMAINS + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +The aspartyl protease (PR) mediates the proteolytic cleavages of the Gag and Gag-Pol polyproteins after assembly of the VLP. + + +Reverse transcriptase/ribonuclease H (RT) is a multifunctional enzyme that catalyzes the conversion of the retro-elements RNA genome into dsDNA within the VLP. The enzyme displays a DNA polymerase activity that can copy either DNA or RNA templates, and a ribonuclease H (RNase H) activity that cleaves the RNA strand of RNA-DNA heteroduplexes during plus-strand synthesis and hydrolyzes RNA primers. The conversion leads to a linear dsDNA copy of the retrotransposon that includes long terminal repeats (LTRs) at both ends (By similarity). + + +Integrase (IN) targets the VLP to the nucleus, where a subparticle preintegration complex (PIC) containing at least integrase and the newly synthesized dsDNA copy of the retrotransposon must transit the nuclear membrane. Once in the nucleus, integrase performs the integration of the dsDNA into the host genome (By similarity). + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +Endonucleolytic cleavage to 5'-phosphomonoester. + + + + +The capsid protein forms a homotrimer, from which the VLPs are assembled. The protease is a homodimer, whose active site consists of two apposed aspartic acid residues (By similarity). + + + +Cytoplasm + + +Nucleus + + + + + +Q12141-1 +Transposon Ty1-GR1 Gag-Pol polyprotein + + + +Q12085-1 +Transposon Ty1-GR1 Gag polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Integrase core domain contains the D-x(n)-D-x(35)-E motif, named for the phylogenetically conserved glutamic acid and aspartic acid residues and the invariant 35 amino acid spacing between the second and third acidic residues. Each acidic residue of the D,D(35)E motif is independently essential for the 3'-processing and strand transfer activities of purified integrase protein (By similarity). + + +Initially, virus-like particles (VLPs) are composed of the structural unprocessed proteins Gag and Gag-Pol, and contain also the host initiator methionine tRNA (tRNA(i)-Met) which serves as a primer for minus-strand DNA synthesis, and a dimer of genomic Ty RNA. Processing of the polyproteins occurs within the particle and proceeds by an ordered pathway, called maturation. First, the protease (PR) is released by autocatalytic cleavage of the Gag-Pol polyprotein yielding capsid protein p45 and a Pol-p154 precursor protein. This cleavage is a prerequisite for subsequent processing of Pol-p154 at the remaining sites to release the mature structural and catalytic proteins. Maturation takes place prior to the RT reaction and is required to produce transposition-competent VLPs (By similarity). + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-GR1 Gag-Pol polyprotein +Produced by +1 ribosomal frameshifting between codon Leu-435 and Gly-436 of the YGR027W-A ORF. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Aspartyl protease +ATP-binding +Cytoplasm +DNA integration +DNA recombination +DNA-binding +DNA-directed DNA polymerase +Endonuclease +Hydrolase +Magnesium +Metal-binding +Multifunctional enzyme +Nuclease +Nucleotide-binding +Nucleotidyltransferase +Nucleus +Phosphoprotein +Protease +Reference proteome +Ribosomal frameshifting +RNA-binding +RNA-directed DNA polymerase +Transferase +Transposable element +Transposition +Viral release from host cell +Virion maturation +Zinc +Zinc-finger + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQTAQSHSPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIQQCGMEEVRGWSCVFKNSQVTICLFVDDMVLFSKNLNSNKRIIDKLKMQYDTKIINLGESDEEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQQELELEEDDYKMKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSKQVLDMTYELIQFIWNTRDKQLIWHKSKPVKPTNKLVVISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELDKKPITKGLLTDSKSTISIIISNNEEKFRNRFFGTKAMRLRDEVSGNHLHVCYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + +P0CX74 +D6VWK0 +P47097 +Q66R50 +YJ11A_YEAST + + +Transposon Ty1-JR1 Gag polyprotein + + +Gag-p49 + + +Transposon Ty1 protein A +TY1A +TYA + + +p58 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Gag-p4 + + + + +TY1A-JR1 +YJRWTy1-1 GAG +YJR026W +J1555 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The sequence of 24.3 kb from chromosome X reveals five complete open reading frames, all of which correspond to new genes, and a tandem insertion of a Ty1 transposon. + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Complete nucleotide sequence of Saccharomyces cerevisiae chromosome X. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Differential effects of chromatin and Gcn4 on the 50-fold range of expression among individual yeast Ty1 retrotransposons. + + + + + + + + + +INDUCTION + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +Homotrimer. + + + +Cytoplasm + + + + + +P0CX74-1 +Transposon Ty1-JR1 Gag polyprotein + + + +P47098-1 +Transposon Ty1-JR1 Gag-Pol polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +Ty1-JR1 is a weakly expressed element. Induced under amino acid starvation conditions by GCN4. + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-JR1 Gag polyprotein +Produced by conventional translation. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Phosphoprotein +Reference proteome +Ribosomal frameshifting +RNA-binding +Transposable element + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + +P0CX70 +D3DM44 +Q12162 +YD15A_YEAST + + +Transposon Ty1-DR6 Gag polyprotein + + +Gag-p49 + + +Transposon Ty1 protein A +TY1A +TYA + + +p58 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Gag-p4 + + + + +TY1A-DR6 +YDRWTy1-5 GAG +YDR365W-A +D9481.12 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Differential effects of chromatin and Gcn4 on the 50-fold range of expression among individual yeast Ty1 retrotransposons. + + + + + + + + + +INDUCTION + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +Homotrimer. + + + +Cytoplasm + + + + + +P0CX70-1 +Transposon Ty1-DR6 Gag polyprotein + + + +P0C2I3-1 +Transposon Ty1-DR6 Gag-Pol polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +Ty1-DR6 is a highly expressed element. Induced under amino acid starvation conditions by GCN4. + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-DR6 Gag polyprotein +Produced by conventional translation. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Phosphoprotein +Reference proteome +Ribosomal frameshifting +RNA-binding +Transposable element + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + +P0CX71 +D3DM44 +Q12162 +YE11A_YEAST + + +Transposon Ty1-ER1 Gag polyprotein + + +Gag-p49 + + +Transposon Ty1 protein A +TY1A +TYA + + +p58 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Gag-p4 + + + + +TY1A-ER1 +YERCTy1-1 GAG +YER137C-A +YER138C-A + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome V. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Differential effects of chromatin and Gcn4 on the 50-fold range of expression among individual yeast Ty1 retrotransposons. + + + + + + + + + +INDUCTION + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +Homotrimer. + + + +Cytoplasm + + + + + +P0CX71-1 +Transposon Ty1-ER1 Gag polyprotein + + + +Q03612-1 +Transposon Ty1-ER1 Gag-Pol polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +Ty1-ER1 is a highly expressed element. Induced under amino acid starvation conditions by GCN4. + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-ER1 Gag polyprotein +Produced by conventional translation. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Phosphoprotein +Reference proteome +Ribosomal frameshifting +RNA-binding +Transposable element + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + +Q12085 +D6VUG2 +YG11A_YEAST + + +Transposon Ty1-GR1 Gag polyprotein + + +Gag-p49 + + +Transposon Ty1 protein A +TY1A +TYA + + +p58 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Gag-p4 + + + + +TY1A-GR1 +YGRWTy1-1 GAG +YGR027W-A +G4052 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome VII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Differential effects of chromatin and Gcn4 on the 50-fold range of expression among individual yeast Ty1 retrotransposons. + + + + + + + + + +INDUCTION + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +Homotrimer. + + + +Cytoplasm + + + + + +Q12085-1 +Transposon Ty1-GR1 Gag polyprotein + + + +Q12141-1 +Transposon Ty1-GR1 Gag-Pol polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +Ty1-GR1 is a highly expressed element. Induced under amino acid starvation conditions by GCN4. + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-GR1 Gag polyprotein +Produced by conventional translation. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Phosphoprotein +Reference proteome +Ribosomal frameshifting +RNA-binding +Transposable element + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQTAQSHSPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + +P0CF21 +P17324 +P40443 +P40444 +Q6Q579 +YI168_YEAST + + +Putative truncated L-serine dehydratase YIL168W +4.3.1.17 + + + +YIL168W +YI9402.08A + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IX. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +L-serine = NH4(+) + pyruvate + + + + + + + + + +pyridoxal 5'-phosphate + + + + +Carbohydrate biosynthesis; gluconeogenesis. + + + +Cytoplasm + + + +Belongs to the serine/threonine dehydratase family. + + +Could be the product of a pseudogene unlikely to encode a functional protein. This is a truncated version of L-serine dehydratase. Strain S288c has a stop codon in position 128, which disrupts the gene coding for this protein and produces two ORFs YIL167W and YIL168W. Because of that it is not part of the S.cerevisiae S288c complete/reference proteome set. A contiguous sequence for L-serine dehydratase can be found in other strain backgrounds (AC P0CF23). + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Gluconeogenesis +Lyase +Pyridoxal phosphate + + + + + + + + + + + + + + + + + + +MEMTYYEKTPLIRQFLNNGKTNSWFYVKHEMLQPGGSFKSRGIGHLIRKSNEEALSEGSGKLAVFSSSGGNAGLAAATACRSMALNCSVVVPKTTKPRMVKKIQSAGAKVIIHGDHWGEADEYLRHE + + +P0CX72 +D3DM44 +Q12162 +YL12A_YEAST + + +Transposon Ty1-LR2 Gag polyprotein + + +Gag-p49 + + +Transposon Ty1 protein A +TY1A +TYA + + +p58 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Gag-p4 + + + + +TY1A-LR2 +YLRCTy1-2 GAG +YLR157C-A +L9632.7 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Differential effects of chromatin and Gcn4 on the 50-fold range of expression among individual yeast Ty1 retrotransposons. + + + + + + + + + +INDUCTION + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +Homotrimer. + + + +Cytoplasm + + + + + +P0CX72-1 +Transposon Ty1-LR2 Gag polyprotein + + + +P0C2I5-1 +Transposon Ty1-LR2 Gag-Pol polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +Ty1-LR2 is a weakly expressed element. Induced under amino acid starvation conditions by GCN4. + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-LR2 Gag polyprotein +Produced by conventional translation. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Phosphoprotein +Reference proteome +Ribosomal frameshifting +RNA-binding +Transposable element + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + +P0C2I6 +D6VYM8 +YL13B_YEAST + + +Transposon Ty1-LR3 Gag-Pol polyprotein + + +Gag-Pol-p199 + + +TY1A-TY1B + + +Transposon Ty1 TYA-TYB polyprotein + + +p190 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Ty1 protease +PR +3.4.23.- + + +Pol-p20 + + +p23 + + + + +Integrase +IN + + +Pol-p71 + + +p84 + + +p90 + + + + +Reverse transcriptase/ribonuclease H +RT +RT-RH +2.7.7.49 +2.7.7.7 +3.1.26.4 + + +Pol-p63 + + +p60 + + + + +TY1B-LR3 +YLRWTy1-3 POL +YLR227W-B +L8083.11 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + + +Reverse transcriptase and integrase of the Saccharomyces cerevisiae Ty1 element. + + + + + + + + +REVIEW +DOMAINS + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +The aspartyl protease (PR) mediates the proteolytic cleavages of the Gag and Gag-Pol polyproteins after assembly of the VLP. + + +Reverse transcriptase/ribonuclease H (RT) is a multifunctional enzyme that catalyzes the conversion of the retro-elements RNA genome into dsDNA within the VLP. The enzyme displays a DNA polymerase activity that can copy either DNA or RNA templates, and a ribonuclease H (RNase H) activity that cleaves the RNA strand of RNA-DNA heteroduplexes during plus-strand synthesis and hydrolyzes RNA primers. The conversion leads to a linear dsDNA copy of the retrotransposon that includes long terminal repeats (LTRs) at both ends (By similarity). + + +Integrase (IN) targets the VLP to the nucleus, where a subparticle preintegration complex (PIC) containing at least integrase and the newly synthesized dsDNA copy of the retrotransposon must transit the nuclear membrane. Once in the nucleus, integrase performs the integration of the dsDNA into the host genome (By similarity). + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +Endonucleolytic cleavage to 5'-phosphomonoester. + + + + +The capsid protein forms a homotrimer, from which the VLPs are assembled. The protease is a homodimer, whose active site consists of two apposed aspartic acid residues (By similarity). + + + +Cytoplasm + + +Nucleus + + + + + +P0C2I6-1 +Transposon Ty1-LR3 Gag-Pol polyprotein + + + +P0CX75-1 +Transposon Ty1-LR3 Gag polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Integrase core domain contains the D-x(n)-D-x(35)-E motif, named for the phylogenetically conserved glutamic acid and aspartic acid residues and the invariant 35 amino acid spacing between the second and third acidic residues. Each acidic residue of the D,D(35)E motif is independently essential for the 3'-processing and strand transfer activities of purified integrase protein (By similarity). + + +Initially, virus-like particles (VLPs) are composed of the structural unprocessed proteins Gag and Gag-Pol, and contain also the host initiator methionine tRNA (tRNA(i)-Met) which serves as a primer for minus-strand DNA synthesis, and a dimer of genomic Ty RNA. Processing of the polyproteins occurs within the particle and proceeds by an ordered pathway, called maturation. First, the protease (PR) is released by autocatalytic cleavage of the Gag-Pol polyprotein yielding capsid protein p45 and a Pol-p154 precursor protein. This cleavage is a prerequisite for subsequent processing of Pol-p154 at the remaining sites to release the mature structural and catalytic proteins. Maturation takes place prior to the RT reaction and is required to produce transposition-competent VLPs (By similarity). + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-LR3 Gag-Pol polyprotein +Produced by +1 ribosomal frameshifting between codon Leu-435 and Gly-436 of the YLR227W-A ORF. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Aspartyl protease +ATP-binding +Cytoplasm +DNA integration +DNA recombination +DNA-binding +DNA-directed DNA polymerase +Endonuclease +Hydrolase +Magnesium +Metal-binding +Multifunctional enzyme +Nuclease +Nucleotide-binding +Nucleotidyltransferase +Nucleus +Phosphoprotein +Protease +Reference proteome +Ribosomal frameshifting +RNA-binding +RNA-directed DNA polymerase +Transferase +Transposable element +Transposition +Viral release from host cell +Virion maturation +Zinc +Zinc-finger + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSASQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKPISEINLRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSNNETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDPPPEPPTELSDSFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAAKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMNTWDTDKYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDTGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSHYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIFLLNGKVIGGKSTKASLTCTSTTEAEIHAVSEAIPLLNNLSHLVQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + +P0C2I8 +D6VYQ3 +YL14A_YEAST + + +Transposon Ty1-LR4 Gag polyprotein + + +Gag-p49 + + +Transposon Ty1 protein A +TY1A +TYA + + +p58 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Gag-p4 + + + + +TY1A-LR4 +YLRWTy1-4 GAG +YLR256W-A +L9672.1 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Differential effects of chromatin and Gcn4 on the 50-fold range of expression among individual yeast Ty1 retrotransposons. + + + + + + + + + +INDUCTION + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +Homotrimer. + + + +Cytoplasm + + + + + +P0C2I8-1 +Transposon Ty1-LR4 Gag polyprotein + + + +P0C2I7-1 +Transposon Ty1-LR4 Gag-Pol polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +Ty1-LR4 is a highly expressed element. Induced under amino acid starvation conditions by GCN4. + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-LR4 Gag polyprotein +Produced by conventional translation. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Phosphoprotein +Reference proteome +Ribosomal frameshifting +RNA-binding +Transposable element + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHPHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + +P36072 +YKL8_YEAST + + +Putative uncharacterized protein YKL118W + + + +YKL118W + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Sequence of a 10.7 kb segment of yeast chromosome XI identifies the APN1 and the BAF1 loci and reveals one tRNA gene and several new open reading frames including homologs to RAD2 and kinases. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Complete DNA sequence of yeast chromosome XI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + +Partially overlaps VPH2. + + +Product of a dubious gene prediction unlikely to encode a functional protein. Because of that it is not part of the S.cerevisiae S288c complete/reference proteome set. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSSSIPSFDFALFLNFRRNSVILSFSLISNIRVLLCDANRQLSYLTFSSFLSAFSCEICFIFASSFLILNIHTSVMSTLSQLNTQDFCKTEYFVNNIIVRIQS + + +P0C2I5 +D6VYF8 +YL12B_YEAST + + +Transposon Ty1-LR2 Gag-Pol polyprotein + + +Gag-Pol-p199 + + +TY1A-TY1B + + +Transposon Ty1 TYA-TYB polyprotein + + +p190 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Ty1 protease +PR +3.4.23.- + + +Pol-p20 + + +p23 + + + + +Integrase +IN + + +Pol-p71 + + +p84 + + +p90 + + + + +Reverse transcriptase/ribonuclease H +RT +2.7.7.49 +2.7.7.7 +3.1.26.4 + + +Pol-p63 + + +p60 + + + + +TY1B-LR2 +YLRCTy1-2 POL +YLR157C-B +L9632.7 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + + +Reverse transcriptase and integrase of the Saccharomyces cerevisiae Ty1 element. + + + + + + + + +REVIEW +DOMAINS + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +The aspartyl protease (PR) mediates the proteolytic cleavages of the Gag and Gag-Pol polyproteins after assembly of the VLP. + + +Reverse transcriptase/ribonuclease H (RT) is a multifunctional enzyme that catalyzes the conversion of the retro-elements RNA genome into dsDNA within the VLP. The enzyme displays a DNA polymerase activity that can copy either DNA or RNA templates, and a ribonuclease H (RNase H) activity that cleaves the RNA strand of RNA-DNA heteroduplexes during plus-strand synthesis and hydrolyzes RNA primers. The conversion leads to a linear dsDNA copy of the retrotransposon that includes long terminal repeats (LTRs) at both ends (By similarity). + + +Integrase (IN) targets the VLP to the nucleus, where a subparticle preintegration complex (PIC) containing at least integrase and the newly synthesized dsDNA copy of the retrotransposon must transit the nuclear membrane. Once in the nucleus, integrase performs the integration of the dsDNA into the host genome (By similarity). + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +Endonucleolytic cleavage to 5'-phosphomonoester. + + + + +The capsid protein forms a homotrimer, from which the VLPs are assembled. The protease is a homodimer, whose active site consists of two apposed aspartic acid residues (By similarity). + + + +Cytoplasm + + +Nucleus + + + + + +P0C2I5-1 +Transposon Ty1-LR2 Gag-Pol polyprotein + + + +P0CX72-1 +Transposon Ty1-LR2 Gag polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Integrase core domain contains the D-x(n)-D-x(35)-E motif, named for the phylogenetically conserved glutamic acid and aspartic acid residues and the invariant 35 amino acid spacing between the second and third acidic residues. Each acidic residue of the D,D(35)E motif is independently essential for the 3'-processing and strand transfer activities of purified integrase protein (By similarity). + + +Initially, virus-like particles (VLPs) are composed of the structural unprocessed proteins Gag and Gag-Pol, and contain also the host initiator methionine tRNA (tRNA(i)-Met) which serves as a primer for minus-strand DNA synthesis, and a dimer of genomic Ty RNA. Processing of the polyproteins occurs within the particle and proceeds by an ordered pathway, called maturation. First, the protease (PR) is released by autocatalytic cleavage of the Gag-Pol polyprotein yielding capsid protein p45 and a Pol-p154 precursor protein. This cleavage is a prerequisite for subsequent processing of Pol-p154 at the remaining sites to release the mature structural and catalytic proteins. Maturation takes place prior to the RT reaction and is required to produce transposition-competent VLPs (By similarity). + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-LR2 Gag-Pol polyprotein +Produced by +1 ribosomal frameshifting between codon Leu-435 and Gly-436 of the YLR157C-A ORF. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Aspartyl protease +ATP-binding +Cytoplasm +DNA integration +DNA recombination +DNA-binding +DNA-directed DNA polymerase +Endonuclease +Hydrolase +Magnesium +Metal-binding +Multifunctional enzyme +Nuclease +Nucleotide-binding +Nucleotidyltransferase +Nucleus +Phosphoprotein +Protease +Reference proteome +Ribosomal frameshifting +RNA-binding +RNA-directed DNA polymerase +Transferase +Transposable element +Transposition +Viral release from host cell +Virion maturation +Zinc +Zinc-finger + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAPTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPNSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + +P0CX73 +D3DM44 +Q12162 +YP11A_YEAST + + +Transposon Ty1-PL Gag polyprotein + + +Gag-p49 + + +Transposon Ty1 protein A +TY1A +TYA + + +p58 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Gag-p4 + + + + +TY1A-PL +YPLWTy1-1 GAG +YPL257W-A +P0725 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Differential effects of chromatin and Gcn4 on the 50-fold range of expression among individual yeast Ty1 retrotransposons. + + + + + + + + + +INDUCTION + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +Homotrimer. + + + +Cytoplasm + + + + + +P0CX73-1 +Transposon Ty1-PL Gag polyprotein + + + +Q12414-1 +Transposon Ty1-PL Gag-Pol polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +Ty1-PL is a highly expressed element. Induced under amino acid starvation conditions by GCN4. + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-PL Gag polyprotein +Produced by conventional translation. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Phosphoprotein +Reference proteome +Ribosomal frameshifting +RNA-binding +Transposable element + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + +Q12273 +D6W1W3 +YO11B_YEAST + + +Transposon Ty1-OL Gag-Pol polyprotein + + +Gag-Pol-p199 + + +TY1A-TY1B + + +Transposon Ty1 TYA-TYB polyprotein + + +p190 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Ty1 protease +PR +3.4.23.- + + +Pol-p20 + + +p23 + + + + +Integrase +IN + + +Pol-p71 + + +p84 + + +p90 + + + + +Reverse transcriptase/ribonuclease H +RT +RT-RH +2.7.7.49 +2.7.7.7 +3.1.26.4 + + +Pol-p63 + + +p60 + + + + +TY1B-OL +YOLWTy1-1 POL +YOL103W-B +O0770 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Sequence analysis of a 44 kb DNA fragment of yeast chromosome XV including the Ty1-H3 retrotransposon, the suf1(+) frameshift suppressor gene for tRNA-Gly, the yeast transfer RNA-Thr-1a and a delta element. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + + +Reverse transcriptase and integrase of the Saccharomyces cerevisiae Ty1 element. + + + + + + + + +REVIEW +DOMAINS + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +The aspartyl protease (PR) mediates the proteolytic cleavages of the Gag and Gag-Pol polyproteins after assembly of the VLP. + + +Reverse transcriptase/ribonuclease H (RT) is a multifunctional enzyme that catalyzes the conversion of the retro-elements RNA genome into dsDNA within the VLP. The enzyme displays a DNA polymerase activity that can copy either DNA or RNA templates, and a ribonuclease H (RNase H) activity that cleaves the RNA strand of RNA-DNA heteroduplexes during plus-strand synthesis and hydrolyzes RNA primers. The conversion leads to a linear dsDNA copy of the retrotransposon that includes long terminal repeats (LTRs) at both ends (By similarity). + + +Integrase (IN) targets the VLP to the nucleus, where a subparticle preintegration complex (PIC) containing at least integrase and the newly synthesized dsDNA copy of the retrotransposon must transit the nuclear membrane. Once in the nucleus, integrase performs the integration of the dsDNA into the host genome (By similarity). + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +Endonucleolytic cleavage to 5'-phosphomonoester. + + + + +The capsid protein forms a homotrimer, from which the VLPs are assembled. The protease is a homodimer, whose active site consists of two apposed aspartic acid residues (By similarity). + + + +Cytoplasm + + +Nucleus + + + + + +Q12273-1 +Transposon Ty1-OL Gag-Pol polyprotein + + + +Q92392-1 +Transposon Ty1-OL Gag polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Integrase core domain contains the D-x(n)-D-x(35)-E motif, named for the phylogenetically conserved glutamic acid and aspartic acid residues and the invariant 35 amino acid spacing between the second and third acidic residues. Each acidic residue of the D,D(35)E motif is independently essential for the 3'-processing and strand transfer activities of purified integrase protein (By similarity). + + +Initially, virus-like particles (VLPs) are composed of the structural unprocessed proteins Gag and Gag-Pol, and contain also the host initiator methionine tRNA (tRNA(i)-Met) which serves as a primer for minus-strand DNA synthesis, and a dimer of genomic Ty RNA. Processing of the polyproteins occurs within the particle and proceeds by an ordered pathway, called maturation. First, the protease (PR) is released by autocatalytic cleavage of the Gag-Pol polyprotein yielding capsid protein p45 and a Pol-p154 precursor protein. This cleavage is a prerequisite for subsequent processing of Pol-p154 at the remaining sites to release the mature structural and catalytic proteins. Maturation takes place prior to the RT reaction and is required to produce transposition-competent VLPs (By similarity). + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-OL Gag-Pol polyprotein +Produced by +1 ribosomal frameshifting between codon Leu-435 and Gly-436 of the YOL103W-A ORF. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Aspartyl protease +ATP-binding +Cytoplasm +DNA integration +DNA recombination +DNA-binding +DNA-directed DNA polymerase +Endonuclease +Hydrolase +Magnesium +Metal-binding +Multifunctional enzyme +Nuclease +Nucleotide-binding +Nucleotidyltransferase +Nucleus +Phosphoprotein +Protease +Reference proteome +Ribosomal frameshifting +RNA-binding +RNA-directed DNA polymerase +Transferase +Transposable element +Transposition +Viral release from host cell +Virion maturation +Zinc +Zinc-finger + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSNYPQISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIINRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYQSFIASNEIQQSDDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSHQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + +Q03612 +D3DM43 +YE11B_YEAST + + +Transposon Ty1-ER1 Gag-Pol polyprotein + + +Gag-Pol-p199 + + +TY1A-TY1B + + +Transposon Ty1 TYA-TYB polyprotein + + +p190 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Ty1 protease +PR +3.4.23.- + + +Pol-p20 + + +p23 + + + + +Integrase +IN + + +Pol-p71 + + +p84 + + +p90 + + + + +Reverse transcriptase/ribonuclease H +RT +2.7.7.49 +2.7.7.7 +3.1.26.4 + + +Pol-p63 + + +p60 + + + + +TY1B-ER1 +YERCTy1-1 POL +YER138C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome V. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + + +Reverse transcriptase and integrase of the Saccharomyces cerevisiae Ty1 element. + + + + + + + + +REVIEW +DOMAINS + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +The aspartyl protease (PR) mediates the proteolytic cleavages of the Gag and Gag-Pol polyproteins after assembly of the VLP. + + +Reverse transcriptase/ribonuclease H (RT) is a multifunctional enzyme that catalyzes the conversion of the retro-elements RNA genome into dsDNA within the VLP. The enzyme displays a DNA polymerase activity that can copy either DNA or RNA templates, and a ribonuclease H (RNase H) activity that cleaves the RNA strand of RNA-DNA heteroduplexes during plus-strand synthesis and hydrolyzes RNA primers. The conversion leads to a linear dsDNA copy of the retrotransposon that includes long terminal repeats (LTRs) at both ends (By similarity). + + +Integrase (IN) targets the VLP to the nucleus, where a subparticle preintegration complex (PIC) containing at least integrase and the newly synthesized dsDNA copy of the retrotransposon must transit the nuclear membrane. Once in the nucleus, integrase performs the integration of the dsDNA into the host genome (By similarity). + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +Endonucleolytic cleavage to 5'-phosphomonoester. + + + + +The capsid protein forms a homotrimer, from which the VLPs are assembled. The protease is a homodimer, whose active site consists of two apposed aspartic acid residues (By similarity). + + + +Cytoplasm + + +Nucleus + + + + + +Q03612-1 +Transposon Ty1-ER1 Gag-Pol polyprotein + + + +P0CX71-1 +Transposon Ty1-ER1 Gag polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Integrase core domain contains the D-x(n)-D-x(35)-E motif, named for the phylogenetically conserved glutamic acid and aspartic acid residues and the invariant 35 amino acid spacing between the second and third acidic residues. Each acidic residue of the D,D(35)E motif is independently essential for the 3'-processing and strand transfer activities of purified integrase protein (By similarity). + + +Initially, virus-like particles (VLPs) are composed of the structural unprocessed proteins Gag and Gag-Pol, and contain also the host initiator methionine tRNA (tRNA(i)-Met) which serves as a primer for minus-strand DNA synthesis, and a dimer of genomic Ty RNA. Processing of the polyproteins occurs within the particle and proceeds by an ordered pathway, called maturation. First, the protease (PR) is released by autocatalytic cleavage of the Gag-Pol polyprotein yielding capsid protein p45 and a Pol-p154 precursor protein. This cleavage is a prerequisite for subsequent processing of Pol-p154 at the remaining sites to release the mature structural and catalytic proteins. Maturation takes place prior to the RT reaction and is required to produce transposition-competent VLPs (By similarity). + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-ER1 Gag-Pol polyprotein +Produced by +1 ribosomal frameshifting between codon Leu-435 and Gly-436 of the YER137C-A ORF. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Aspartyl protease +ATP-binding +Cytoplasm +DNA integration +DNA recombination +DNA-binding +DNA-directed DNA polymerase +Endonuclease +Hydrolase +Magnesium +Metal-binding +Multifunctional enzyme +Nuclease +Nucleotide-binding +Nucleotidyltransferase +Nucleus +Phosphoprotein +Protease +Reference proteome +Ribosomal frameshifting +RNA-binding +RNA-directed DNA polymerase +Transferase +Transposable element +Transposition +Viral release from host cell +Virion maturation +Zinc +Zinc-finger + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYQSFIASNEIQQSDDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSHQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + +P0C2J1 +D6W4F7 +YP14B_YEAST + + +Transposon Ty1-PR3 Gag-Pol polyprotein + + +Gag-Pol-p199 + + +TY1A-TY1B + + +Transposon Ty1 TYA-TYB polyprotein + + +p190 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Ty1 protease +PR +3.4.23.- + + +Pol-p20 + + +p23 + + + + +Integrase +IN + + +Pol-p71 + + +p84 + + +p90 + + + + +Reverse transcriptase/ribonuclease H +RT +RT-RH +2.7.7.49 +2.7.7.7 +3.1.26.4 + + +Pol-p63 + + +p60 + + + + +TY1B-PR3 +YPRCTy1-4 POL +YPR158C-D +P9584.3 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + + +Reverse transcriptase and integrase of the Saccharomyces cerevisiae Ty1 element. + + + + + + + + +REVIEW +DOMAINS + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +The aspartyl protease (PR) mediates the proteolytic cleavages of the Gag and Gag-Pol polyproteins after assembly of the VLP. + + +Reverse transcriptase/ribonuclease H (RT) is a multifunctional enzyme that catalyzes the conversion of the retro-elements RNA genome into dsDNA within the VLP. The enzyme displays a DNA polymerase activity that can copy either DNA or RNA templates, and a ribonuclease H (RNase H) activity that cleaves the RNA strand of RNA-DNA heteroduplexes during plus-strand synthesis and hydrolyzes RNA primers. The conversion leads to a linear dsDNA copy of the retrotransposon that includes long terminal repeats (LTRs) at both ends (By similarity). + + +Integrase (IN) targets the VLP to the nucleus, where a subparticle preintegration complex (PIC) containing at least integrase and the newly synthesized dsDNA copy of the retrotransposon must transit the nuclear membrane. Once in the nucleus, integrase performs the integration of the dsDNA into the host genome (By similarity). + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +Endonucleolytic cleavage to 5'-phosphomonoester. + + + + +The capsid protein forms a homotrimer, from which the VLPs are assembled. The protease is a homodimer, whose active site consists of two apposed aspartic acid residues (By similarity). + + + +Cytoplasm + + +Nucleus + + + + + +P0C2J1-1 +Transposon Ty1-PR3 Gag-Pol polyprotein + + + +Q6Q5H1-1 +Transposon Ty1-PR3 Gag polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Integrase core domain contains the D-x(n)-D-x(35)-E motif, named for the phylogenetically conserved glutamic acid and aspartic acid residues and the invariant 35 amino acid spacing between the second and third acidic residues. Each acidic residue of the D,D(35)E motif is independently essential for the 3'-processing and strand transfer activities of purified integrase protein (By similarity). + + +Initially, virus-like particles (VLPs) are composed of the structural unprocessed proteins Gag and Gag-Pol, and contain also the host initiator methionine tRNA (tRNA(i)-Met) which serves as a primer for minus-strand DNA synthesis, and a dimer of genomic Ty RNA. Processing of the polyproteins occurs within the particle and proceeds by an ordered pathway, called maturation. First, the protease (PR) is released by autocatalytic cleavage of the Gag-Pol polyprotein yielding capsid protein p45 and a Pol-p154 precursor protein. This cleavage is a prerequisite for subsequent processing of Pol-p154 at the remaining sites to release the mature structural and catalytic proteins. Maturation takes place prior to the RT reaction and is required to produce transposition-competent VLPs (By similarity). + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-PR3 Gag-Pol polyprotein +Produced by +1 ribosomal frameshifting between codon Leu-435 and Gly-436 of the YPR158C-C ORF. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Aspartyl protease +ATP-binding +Cytoplasm +DNA integration +DNA recombination +DNA-binding +DNA-directed DNA polymerase +Endonuclease +Hydrolase +Magnesium +Metal-binding +Multifunctional enzyme +Nuclease +Nucleotide-binding +Nucleotidyltransferase +Nucleus +Phosphoprotein +Protease +Reference proteome +Ribosomal frameshifting +RNA-binding +RNA-directed DNA polymerase +Transferase +Transposable element +Transposition +Viral release from host cell +Virion maturation +Zinc +Zinc-finger + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSNYSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSASQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKPISEINLRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSNNETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDPPPEPPTELSDSFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDRYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDTGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSHYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSHLVQELNKKPITKGLLTDSKSTISIIISNNEEKFRNRFFGTKAMRLRDEVSGNHLHVCYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + +Q07589 +D6VRK4 +YD144_YEAST + + +Uncharacterized protein YDL144C + + + +YDL144C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Sequencing and comparison of yeast species to identify genes and regulatory elements. + + + + + + + + + + +IDENTIFICATION OF PROBABLE INITIATION SITE + + + +Global analysis of protein localization in budding yeast. + + + + + + + + + + + + +SUBCELLULAR LOCATION [LARGE SCALE ANALYSIS] + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +Cytoplasm + + +Nucleus + + + +Present with 5171 molecules/cell in log phase SD medium. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Nucleus +Reference proteome + + + + + + + + + + + + + + + + + +MSRILVIGAGGVGVITALSLWLKKESDVSLVVRSDYDRVLKHGYTIESCDYGRLEGWRPHHIYSSVEDAASAADNQGYNYIVVTTKNIIDGPVNSRVSNIIRPVLEKNKELHGPQLTTHILLVQNGIDIEKEIWAEFPREQYRYTVLSGIQLIGSTKIGSGHISQVGQDHLSCGAFDPQDAAAIQAANDFVRMYSNEGQNFVEFDPRVRYSRWKKLLYNAAINTSTALVGLDVPRCLEFGVNKKSTEIEVFHPAMREIIAIAASEGIIIEEEFITMFTEITRKKVFKPSMCVDCEKGQLMELEVILGNPIRIAKRNGVATPTLSILYNLLVLVQAKLKERKGLLKFDEKTATLVDE + + +Q6Q5H1 +D6W4F8 +YP14A_YEAST + + +Transposon Ty1-PR3 Gag polyprotein + + +Gag-p49 + + +Transposon Ty1 protein A +TY1A +TYA + + +p58 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Gag-p4 + + + + +TY1A-PR3 +YPRCTy1-4 GAG +YPR158C-C +P9584.3 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Differential effects of chromatin and Gcn4 on the 50-fold range of expression among individual yeast Ty1 retrotransposons. + + + + + + + + + +INDUCTION + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +Homotrimer. + + + +Cytoplasm + + + + + +Q6Q5H1-1 +Transposon Ty1-PR3 Gag polyprotein + + + +P0C2J1-1 +Transposon Ty1-PR3 Gag-Pol polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +Ty1-PR3 is a weakly expressed element. Induced under amino acid starvation conditions by GCN4. + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-PR3 Gag polyprotein +Produced by conventional translation. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Phosphoprotein +Reference proteome +Ribosomal frameshifting +RNA-binding +Transposable element + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +G +C + + + + + + + + + + + + + + + + +MESQQLSNYSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + +P0C2I3 +D6VSZ5 +YD15B_YEAST + + +Transposon Ty1-DR6 Gag-Pol polyprotein + + +Gag-Pol-p199 + + +TY1A-TY1B + + +Transposon Ty1 TYA-TYB polyprotein + + +p190 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Ty1 protease +PR +3.4.23.- + + +Pol-p20 + + +p23 + + + + +Integrase +IN + + +Pol-p71 + + +p84 + + +p90 + + + + +Reverse transcriptase/ribonuclease H +RT +RT-RH +2.7.7.49 +2.7.7.7 +3.1.26.4 + + +Pol-p63 + + +p60 + + + + +TY1B-DR6 +YDRWTy1-5 POL +YDR365W-B +D9481.12 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + + +Reverse transcriptase and integrase of the Saccharomyces cerevisiae Ty1 element. + + + + + + + + +REVIEW +DOMAINS + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +The aspartyl protease (PR) mediates the proteolytic cleavages of the Gag and Gag-Pol polyproteins after assembly of the VLP. + + +Reverse transcriptase/ribonuclease H (RT) is a multifunctional enzyme that catalyzes the conversion of the retro-elements RNA genome into dsDNA within the VLP. The enzyme displays a DNA polymerase activity that can copy either DNA or RNA templates, and a ribonuclease H (RNase H) activity that cleaves the RNA strand of RNA-DNA heteroduplexes during plus-strand synthesis and hydrolyzes RNA primers. The conversion leads to a linear dsDNA copy of the retrotransposon that includes long terminal repeats (LTRs) at both ends (By similarity). + + +Integrase (IN) targets the VLP to the nucleus, where a subparticle preintegration complex (PIC) containing at least integrase and the newly synthesized dsDNA copy of the retrotransposon must transit the nuclear membrane. Once in the nucleus, integrase performs the integration of the dsDNA into the host genome (By similarity). + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +Endonucleolytic cleavage to 5'-phosphomonoester. + + + + +The capsid protein forms a homotrimer, from which the VLPs are assembled. The protease is a homodimer, whose active site consists of two apposed aspartic acid residues (By similarity). + + + +Cytoplasm + + +Nucleus + + + + + +P0C2I3-1 +Transposon Ty1-DR6 Gag-Pol polyprotein + + + +P0CX70-1 +Transposon Ty1-DR6 Gag polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Integrase core domain contains the D-x(n)-D-x(35)-E motif, named for the phylogenetically conserved glutamic acid and aspartic acid residues and the invariant 35 amino acid spacing between the second and third acidic residues. Each acidic residue of the D,D(35)E motif is independently essential for the 3'-processing and strand transfer activities of purified integrase protein (By similarity). + + +Initially, virus-like particles (VLPs) are composed of the structural unprocessed proteins Gag and Gag-Pol, and contain also the host initiator methionine tRNA (tRNA(i)-Met) which serves as a primer for minus-strand DNA synthesis, and a dimer of genomic Ty RNA. Processing of the polyproteins occurs within the particle and proceeds by an ordered pathway, called maturation. First, the protease (PR) is released by autocatalytic cleavage of the Gag-Pol polyprotein yielding capsid protein p45 and a Pol-p154 precursor protein. This cleavage is a prerequisite for subsequent processing of Pol-p154 at the remaining sites to release the mature structural and catalytic proteins. Maturation takes place prior to the RT reaction and is required to produce transposition-competent VLPs (By similarity). + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-DR6 Gag-Pol polyprotein +Produced by +1 ribosomal frameshifting between codon Leu-435 and Gly-436 of the YDR365W-A ORF. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Aspartyl protease +ATP-binding +Cytoplasm +DNA integration +DNA recombination +DNA-binding +DNA-directed DNA polymerase +Endonuclease +Hydrolase +Magnesium +Metal-binding +Multifunctional enzyme +Nuclease +Nucleotide-binding +Nucleotidyltransferase +Nucleus +Phosphoprotein +Protease +Reference proteome +Ribosomal frameshifting +RNA-binding +RNA-directed DNA polymerase +Transferase +Transposable element +Transposition +Viral release from host cell +Virion maturation +Zinc +Zinc-finger + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPNSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNYLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIQQCGMEEVRGWSCVFKNSQVTICLFVDDMVLFSKNLNSNKRIIEKLKMQYDTKIINLGESDEEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTKPDNKLVAISDASYGNQPYYKSQIGNIFLLNGKVIGGKSTKASLTCTSTTEAEIHAVSEAIPLLNNLSHLVQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + +P47098 +D6VWJ9 +P87194 +YJ11B_YEAST + + +Transposon Ty1-JR1 Gag-Pol polyprotein + + +Gag-Pol-p199 + + +TY1A-TY1B + + +Transposon Ty1 TYA-TYB polyprotein + + +p190 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Ty1 protease +PR +3.4.23.- + + +Pol-p20 + + +p23 + + + + +Integrase +IN + + +Pol-p71 + + +p84 + + +p90 + + + + +Reverse transcriptase/ribonuclease H +RT +RT-RH +2.7.7.49 +2.7.7.7 +3.1.26.4 + + +Pol-p63 + + +p60 + + + + +TY1B-JR1 +YJRWTy1-1 POL +YJR027W +J1560 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The sequence of 24.3 kb from chromosome X reveals five complete open reading frames, all of which correspond to new genes, and a tandem insertion of a Ty1 transposon. + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +Complete nucleotide sequence of Saccharomyces cerevisiae chromosome X. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + + +Reverse transcriptase and integrase of the Saccharomyces cerevisiae Ty1 element. + + + + + + + + +REVIEW +DOMAINS + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +The aspartyl protease (PR) mediates the proteolytic cleavages of the Gag and Gag-Pol polyproteins after assembly of the VLP. + + +Reverse transcriptase/ribonuclease H (RT) is a multifunctional enzyme that catalyzes the conversion of the retro-elements RNA genome into dsDNA within the VLP. The enzyme displays a DNA polymerase activity that can copy either DNA or RNA templates, and a ribonuclease H (RNase H) activity that cleaves the RNA strand of RNA-DNA heteroduplexes during plus-strand synthesis and hydrolyzes RNA primers. The conversion leads to a linear dsDNA copy of the retrotransposon that includes long terminal repeats (LTRs) at both ends (By similarity). + + +Integrase (IN) targets the VLP to the nucleus, where a subparticle preintegration complex (PIC) containing at least integrase and the newly synthesized dsDNA copy of the retrotransposon must transit the nuclear membrane. Once in the nucleus, integrase performs the integration of the dsDNA into the host genome (By similarity). + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +Endonucleolytic cleavage to 5'-phosphomonoester. + + + + +The capsid protein forms a homotrimer, from which the VLPs are assembled. The protease is a homodimer, whose active site consists of two apposed aspartic acid residues (By similarity). + + + +Cytoplasm + + +Nucleus + + + + + +P47098-1 +Transposon Ty1-JR1 Gag-Pol polyprotein + + + +P0CX74-1 +Transposon Ty1-JR1 Gag polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Integrase core domain contains the D-x(n)-D-x(35)-E motif, named for the phylogenetically conserved glutamic acid and aspartic acid residues and the invariant 35 amino acid spacing between the second and third acidic residues. Each acidic residue of the D,D(35)E motif is independently essential for the 3'-processing and strand transfer activities of purified integrase protein (By similarity). + + +Initially, virus-like particles (VLPs) are composed of the structural unprocessed proteins Gag and Gag-Pol, and contain also the host initiator methionine tRNA (tRNA(i)-Met) which serves as a primer for minus-strand DNA synthesis, and a dimer of genomic Ty RNA. Processing of the polyproteins occurs within the particle and proceeds by an ordered pathway, called maturation. First, the protease (PR) is released by autocatalytic cleavage of the Gag-Pol polyprotein yielding capsid protein p45 and a Pol-p154 precursor protein. This cleavage is a prerequisite for subsequent processing of Pol-p154 at the remaining sites to release the mature structural and catalytic proteins. Maturation takes place prior to the RT reaction and is required to produce transposition-competent VLPs (By similarity). + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-JR1 Gag-Pol polyprotein +Produced by +1 ribosomal frameshifting between codon Leu-435 and Gly-436 of the YJR026W ORF. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Aspartyl protease +ATP-binding +Cytoplasm +DNA integration +DNA recombination +DNA-binding +DNA-directed DNA polymerase +Endonuclease +Hydrolase +Magnesium +Metal-binding +Multifunctional enzyme +Nuclease +Nucleotide-binding +Nucleotidyltransferase +Nucleus +Phosphoprotein +Protease +Reference proteome +Ribosomal frameshifting +RNA-binding +RNA-directed DNA polymerase +Transferase +Transposable element +Transposition +Viral release from host cell +Virion maturation +Zinc +Zinc-finger + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVQYGDFYWVSKRYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYQSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSHQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDTGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSHYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIFLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + +P0CX76 +D6VWK0 +P47097 +Q66R50 +YM12A_YEAST + + +Transposon Ty1-ML2 Gag polyprotein + + +Gag-p49 + + +Transposon Ty1 protein A +TY1A +TYA + + +p58 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Gag-p4 + + + + +TY1A-ML2 +YMLWTy1-2 GAG +YML040W +YM8054.03 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XIII. + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Differential effects of chromatin and Gcn4 on the 50-fold range of expression among individual yeast Ty1 retrotransposons. + + + + + + + + + +INDUCTION + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +Homotrimer. + + + +Cytoplasm + + + + + +P0CX76-1 +Transposon Ty1-ML2 Gag polyprotein + + + +Q03434-1 +Transposon Ty1-ML2 Gag-Pol polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +Ty1-ML2 is a highly expressed element. Induced under amino acid starvation conditions by GCN4. + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-ML2 Gag polyprotein +Produced by conventional translation. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Phosphoprotein +Reference proteome +Ribosomal frameshifting +RNA-binding +Transposable element + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + +Q03434 +D6VZD5 +YM12B_YEAST + + +Transposon Ty1-ML2 Gag-Pol polyprotein + + +Gag-Pol-p199 + + +TY1A-TY1B + + +Transposon Ty1 TYA-TYB polyprotein + + +p190 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Ty1 protease +PR +3.4.23.- + + +Pol-p20 + + +p23 + + + + +Integrase +IN + + +Pol-p71 + + +p84 + + +p90 + + + + +Reverse transcriptase/ribonuclease H +RT +2.7.7.49 +2.7.7.7 +3.1.26.4 + + +Pol-p63 + + +p60 + + + + +TY1B-ML2 +YMLWTy1-2 POL +YML039W +YM8054.04 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XIII. + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + + +Reverse transcriptase and integrase of the Saccharomyces cerevisiae Ty1 element. + + + + + + + + +REVIEW +DOMAINS + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +The aspartyl protease (PR) mediates the proteolytic cleavages of the Gag and Gag-Pol polyproteins after assembly of the VLP. + + +Reverse transcriptase/ribonuclease H (RT) is a multifunctional enzyme that catalyzes the conversion of the retro-elements RNA genome into dsDNA within the VLP. The enzyme displays a DNA polymerase activity that can copy either DNA or RNA templates, and a ribonuclease H (RNase H) activity that cleaves the RNA strand of RNA-DNA heteroduplexes during plus-strand synthesis and hydrolyzes RNA primers. The conversion leads to a linear dsDNA copy of the retrotransposon that includes long terminal repeats (LTRs) at both ends (By similarity). + + +Integrase (IN) targets the VLP to the nucleus, where a subparticle preintegration complex (PIC) containing at least integrase and the newly synthesized dsDNA copy of the retrotransposon must transit the nuclear membrane. Once in the nucleus, integrase performs the integration of the dsDNA into the host genome (By similarity). + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +Endonucleolytic cleavage to 5'-phosphomonoester. + + + + +The capsid protein forms a homotrimer, from which the VLPs are assembled. The protease is a homodimer, whose active site consists of two apposed aspartic acid residues (By similarity). + + + +Cytoplasm + + +Nucleus + + + + + +Q03434-1 +Transposon Ty1-ML2 Gag-Pol polyprotein + + + +P0CX76-1 +Transposon Ty1-ML2 Gag polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Integrase core domain contains the D-x(n)-D-x(35)-E motif, named for the phylogenetically conserved glutamic acid and aspartic acid residues and the invariant 35 amino acid spacing between the second and third acidic residues. Each acidic residue of the D,D(35)E motif is independently essential for the 3'-processing and strand transfer activities of purified integrase protein (By similarity). + + +Initially, virus-like particles (VLPs) are composed of the structural unprocessed proteins Gag and Gag-Pol, and contain also the host initiator methionine tRNA (tRNA(i)-Met) which serves as a primer for minus-strand DNA synthesis, and a dimer of genomic Ty RNA. Processing of the polyproteins occurs within the particle and proceeds by an ordered pathway, called maturation. First, the protease (PR) is released by autocatalytic cleavage of the Gag-Pol polyprotein yielding capsid protein p45 and a Pol-p154 precursor protein. This cleavage is a prerequisite for subsequent processing of Pol-p154 at the remaining sites to release the mature structural and catalytic proteins. Maturation takes place prior to the RT reaction and is required to produce transposition-competent VLPs (By similarity). + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-ML2 Gag-Pol polyprotein +Produced by +1 ribosomal frameshifting between codon Leu-435 and Gly-436 of the YML040W ORF. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Aspartyl protease +ATP-binding +Cytoplasm +DNA integration +DNA recombination +DNA-binding +DNA-directed DNA polymerase +Endonuclease +Hydrolase +Magnesium +Metal-binding +Multifunctional enzyme +Nuclease +Nucleotide-binding +Nucleotidyltransferase +Nucleus +Phosphoprotein +Protease +Reference proteome +Ribosomal frameshifting +RNA-binding +RNA-directed DNA polymerase +Transferase +Transposable element +Transposition +Viral release from host cell +Virion maturation +Zinc +Zinc-finger + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDRSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPKSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYQSFIASNEIQQSDDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSHQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + +P0C2I7 +YL14B_YEAST + + +Transposon Ty1-LR4 Gag-Pol polyprotein + + +Gag-Pol-p199 + + +TY1A-TY1B + + +Transposon Ty1 TYA-TYB polyprotein + + +p190 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Ty1 protease +PR +3.4.23.- + + +Pol-p20 + + +p23 + + + + +Integrase +IN + + +Pol-p71 + + +p84 + + +p90 + + + + +Reverse transcriptase/ribonuclease H +RT +RT-RH +2.7.7.49 +2.7.7.7 +3.1.26.4 + + +Pol-p63 + + +p60 + + + + +TY1B-LR4 +YLRWTy1-4 POL +YLR256W-B/YLR256W-C + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE +IDENTIFICATION OF FRAMESHIFT + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + + +Reverse transcriptase and integrase of the Saccharomyces cerevisiae Ty1 element. + + + + + + + + +REVIEW +DOMAINS + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +The aspartyl protease (PR) mediates the proteolytic cleavages of the Gag and Gag-Pol polyproteins after assembly of the VLP. + + +Reverse transcriptase/ribonuclease H (RT) is a multifunctional enzyme that catalyzes the conversion of the retro-elements RNA genome into dsDNA within the VLP. The enzyme displays a DNA polymerase activity that can copy either DNA or RNA templates, and a ribonuclease H (RNase H) activity that cleaves the RNA strand of RNA-DNA heteroduplexes during plus-strand synthesis and hydrolyzes RNA primers. The conversion leads to a linear dsDNA copy of the retrotransposon that includes long terminal repeats (LTRs) at both ends (By similarity). + + +Integrase (IN) targets the VLP to the nucleus, where a subparticle preintegration complex (PIC) containing at least integrase and the newly synthesized dsDNA copy of the retrotransposon must transit the nuclear membrane. Once in the nucleus, integrase performs the integration of the dsDNA into the host genome (By similarity). + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +Endonucleolytic cleavage to 5'-phosphomonoester. + + + + +The capsid protein forms a homotrimer, from which the VLPs are assembled. The protease is a homodimer, whose active site consists of two apposed aspartic acid residues (By similarity). + + + +Cytoplasm + + +Nucleus + + + + + +P0C2I7-1 +Transposon Ty1-LR4 Gag-Pol polyprotein + + + +P0C2I8-1 +Transposon Ty1-LR4 Gag polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Integrase core domain contains the D-x(n)-D-x(35)-E motif, named for the phylogenetically conserved glutamic acid and aspartic acid residues and the invariant 35 amino acid spacing between the second and third acidic residues. Each acidic residue of the D,D(35)E motif is independently essential for the 3'-processing and strand transfer activities of purified integrase protein (By similarity). + + +Initially, virus-like particles (VLPs) are composed of the structural unprocessed proteins Gag and Gag-Pol, and contain also the host initiator methionine tRNA (tRNA(i)-Met) which serves as a primer for minus-strand DNA synthesis, and a dimer of genomic Ty RNA. Processing of the polyproteins occurs within the particle and proceeds by an ordered pathway, called maturation. First, the protease (PR) is released by autocatalytic cleavage of the Gag-Pol polyprotein yielding capsid protein p45 and a Pol-p154 precursor protein. This cleavage is a prerequisite for subsequent processing of Pol-p154 at the remaining sites to release the mature structural and catalytic proteins. Maturation takes place prior to the RT reaction and is required to produce transposition-competent VLPs (By similarity). + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-LR4 Gag-Pol polyprotein +Produced by +1 ribosomal frameshifting between codon Leu-435 and Gly-436 of the YLR256W-A ORF. + + +Could be the product of a pseudogene unlikely to encode a functional protein. Transposon Ty1-LR4 (YLRWTy1-4) contains a frameshift at position 753, which disrupts the ORF coding for protein TY1B. Because of that it is not part of the S.cerevisiae S288c complete/reference proteome set. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Aspartyl protease +ATP-binding +Cytoplasm +DNA integration +DNA recombination +DNA-binding +DNA-directed DNA polymerase +Endonuclease +Hydrolase +Magnesium +Metal-binding +Multifunctional enzyme +Nuclease +Nucleotide-binding +Nucleotidyltransferase +Nucleus +Phosphoprotein +Protease +Ribosomal frameshifting +RNA-binding +RNA-directed DNA polymerase +Transferase +Transposable element +Transposition +Viral release from host cell +Virion maturation +Zinc +Zinc-finger + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHPHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPNSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIQQCGMEEVRGWSCVFKNSQVTICLFVDDMVLFSKNLNSNKRIIEKLKMQYDTKIINLGESDEEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTKPDNKLVAISDASYGNQPYYKSQIGNIFLLNGKVIGGKSTKASLTCTSTTEAEIHAVSEAIPLLNNLSHLVQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + +P38079 +D6VQ53 +YRO2_YEAST + + +Protein YRO2 + + + +YRO2 +YBR054W +YBR0507 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Sequence and analysis of 24 kb on chromosome II of Saccharomyces cerevisiae. + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Complete DNA sequence of yeast chromosome II. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +A proteomics approach to understanding protein ubiquitination. + + + + + + + + + + + + + + +UBIQUITINATION [LARGE SCALE ANALYSIS] AT LYS-286 +IDENTIFICATION BY MASS SPECTROMETRY + +SUB592 + + + + +A global topology map of the Saccharomyces cerevisiae membrane proteome. + + + + + + + + + +TOPOLOGY [LARGE SCALE ANALYSIS] + +ATCC 208353 / W303-1A + + + + +Profiling phosphoproteins of yeast mitochondria reveals a role of phosphorylation in assembly of the ATP synthase. + + + + + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-341 AND SER-343 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + +ATCC 76625 / YPH499 + + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-293; THR-341 AND SER-343 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT THR-341 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + + +Membrane +Multi-pass membrane protein + + + +Present with 1950 molecules/cell in log phase SD medium. + + +Belongs to the archaeal/bacterial/fungal opsin family. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Isopeptide bond +Membrane +Phosphoprotein +Reference proteome +Transmembrane +Transmembrane helix +Ubl conjugation + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MSDYVELLKRGGNEAIKINPPTGADFHITSRGSDWLFTVFCVNLLFGVILVPLMFRKPVKDRFVYYTAIAPNLFMSIAYFTMASNLGWIPVRAKYNHVQTSTQKEHPGYRQIFYARYVGWFLAFPWPIIQMSLLGGTPLWQIAFNVGMTEIFTVCWLIAACVHSTYKWGYYTIGIGAAIVVCISLMTTTFNLVKARGKDVSNVFITFMSVIMFLWLIAYPTCFGITDGGNVLQPDSATIFYGIIDLLILSILPVLFMPLANYLGIERLGLIFDEEPAEHVGPVAEKKMPSPASFKSSDSDSSIKEKLKLKKKHKKDKKKAKKAKKAKKAKKAQEEEEDVATDSE + + +Q92392 +D6W1W4 +YO11A_YEAST + + +Transposon Ty1-OL Gag polyprotein + + +Gag-p49 + + +Transposon Ty1 protein A +TY1A +TYA + + +p58 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Gag-p4 + + + + +TY1A-OL +YOLWTy1-1 GAG +YOL103W-A +HRA440 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +Sequence analysis of a 44 kb DNA fragment of yeast chromosome XV including the Ty1-H3 retrotransposon, the suf1(+) frameshift suppressor gene for tRNA-Gly, the yeast transfer RNA-Thr-1a and a delta element. + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Differential effects of chromatin and Gcn4 on the 50-fold range of expression among individual yeast Ty1 retrotransposons. + + + + + + + + + +INDUCTION + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +Homotrimer. + + + +Cytoplasm + + + + + +Q92392-1 +Transposon Ty1-OL Gag polyprotein + + + +Q12273-1 +Transposon Ty1-OL Gag-Pol polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +Ty1-OL is a weakly expressed element. Induced under amino acid starvation conditions by GCN4. + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-OL Gag polyprotein +Produced by conventional translation. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Phosphoprotein +Reference proteome +Ribosomal frameshifting +RNA-binding +Transposable element + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSNYPQISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIINRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + +Q12414 +D6W3B2 +YP11B_YEAST + + +Transposon Ty1-PL Gag-Pol polyprotein + + +Gag-Pol-p199 + + +TY1A-TY1B + + +Transposon Ty1 TYA-TYB polyprotein + + +p190 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Ty1 protease +PR +3.4.23.- + + +Pol-p20 + + +p23 + + + + +Integrase +IN + + +Pol-p71 + + +p84 + + +p90 + + + + +Reverse transcriptase/ribonuclease H +RT +RT-RH +2.7.7.49 +2.7.7.7 +3.1.26.4 + + +Pol-p63 + + +p60 + + + + +TY1B-PL +YPLWTy1-1 POL +YPL257W-B +P0729 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + + +Reverse transcriptase and integrase of the Saccharomyces cerevisiae Ty1 element. + + + + + + + + +REVIEW +DOMAINS + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +The aspartyl protease (PR) mediates the proteolytic cleavages of the Gag and Gag-Pol polyproteins after assembly of the VLP. + + +Reverse transcriptase/ribonuclease H (RT) is a multifunctional enzyme that catalyzes the conversion of the retro-elements RNA genome into dsDNA within the VLP. The enzyme displays a DNA polymerase activity that can copy either DNA or RNA templates, and a ribonuclease H (RNase H) activity that cleaves the RNA strand of RNA-DNA heteroduplexes during plus-strand synthesis and hydrolyzes RNA primers. The conversion leads to a linear dsDNA copy of the retrotransposon that includes long terminal repeats (LTRs) at both ends (By similarity). + + +Integrase (IN) targets the VLP to the nucleus, where a subparticle preintegration complex (PIC) containing at least integrase and the newly synthesized dsDNA copy of the retrotransposon must transit the nuclear membrane. Once in the nucleus, integrase performs the integration of the dsDNA into the host genome (By similarity). + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +a 2'-deoxyribonucleoside 5'-triphosphate + DNA(n) = diphosphate + DNA(n+1) + + + + + + + + + + + +Endonucleolytic cleavage to 5'-phosphomonoester. + + + + +The capsid protein forms a homotrimer, from which the VLPs are assembled. The protease is a homodimer, whose active site consists of two apposed aspartic acid residues (By similarity). + + + +Cytoplasm + + +Nucleus + + + + + +Q12414-1 +Transposon Ty1-PL Gag-Pol polyprotein + + + +P0CX73-1 +Transposon Ty1-PL Gag polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Integrase core domain contains the D-x(n)-D-x(35)-E motif, named for the phylogenetically conserved glutamic acid and aspartic acid residues and the invariant 35 amino acid spacing between the second and third acidic residues. Each acidic residue of the D,D(35)E motif is independently essential for the 3'-processing and strand transfer activities of purified integrase protein (By similarity). + + +Initially, virus-like particles (VLPs) are composed of the structural unprocessed proteins Gag and Gag-Pol, and contain also the host initiator methionine tRNA (tRNA(i)-Met) which serves as a primer for minus-strand DNA synthesis, and a dimer of genomic Ty RNA. Processing of the polyproteins occurs within the particle and proceeds by an ordered pathway, called maturation. First, the protease (PR) is released by autocatalytic cleavage of the Gag-Pol polyprotein yielding capsid protein p45 and a Pol-p154 precursor protein. This cleavage is a prerequisite for subsequent processing of Pol-p154 at the remaining sites to release the mature structural and catalytic proteins. Maturation takes place prior to the RT reaction and is required to produce transposition-competent VLPs (By similarity). + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-PL Gag-Pol polyprotein +Produced by +1 ribosomal frameshifting between codon Leu-435 and Gly-436 of the YPL257W-A ORF. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Aspartyl protease +ATP-binding +Cytoplasm +DNA integration +DNA recombination +DNA-binding +DNA-directed DNA polymerase +Endonuclease +Hydrolase +Magnesium +Metal-binding +Multifunctional enzyme +Nuclease +Nucleotide-binding +Nucleotidyltransferase +Nucleus +Phosphoprotein +Protease +Reference proteome +Ribosomal frameshifting +RNA-binding +RNA-directed DNA polymerase +Transferase +Transposable element +Transposition +Viral release from host cell +Virion maturation +Zinc +Zinc-finger + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +MESQQLSQHSPISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLGQELTESTVNHTNHSDDELPGHLLLDSGASRTLIRSAHHIHSASSNPDINVVDAQKRNIPINAIGDLQFHFQDNTKTSIKVLHTPNIAYDLLSLNELAAVDITACFTKNVLERSDGTVLAPIVKYGDFYWVSKKYLLPSNISVPTINNVHTSESTRKYPYPFIHRMLAHANAQTIRYSLKNNTITYFNESDVDWSSAIDYQCPDCLIGKSTKHRHIKGSRLKYQNSYEPFQYLHTDIFGPVHNLPNSAPSYFISFTDETTKFRWVYPLHDRREDSILDVFTTILAFIKNQFQASVLVIQMDRGSEYTNRTLHKFLEKNGITPCYTTTADSRAHGVAERLNRTLLDDCRTQLQCSGLPNHLWFSAIEFSTIVRNSLASPKSKKSARQHAGLAGLDISTLLPFGQPVIVNDHNPNSKIHPRGIPGYALHPSRNSYGYIIYLPSLKKTVDTTNYVILQGKESRLDQFNYDALTFDEDLNRLTASYHSFIASNEIQESNDLNIESDHDFQSDIELHPEQPRNVLSKAVSPTDSTPPSTHTEDSKRVSKTNIRAPREVDPNISESNILPSKKRSSTPQISNIESTGSGGMHKLNVPLLAPMSQSNTHESSHASKSKDFRHSDSYSENETNHTNVPISSTGGTNNKTVPQISDQETEKRIIHRSPSIDASPPENNSSHNIVPIKTPTTVSEQNTEESIIADLPLPDLPPESPTEFPDPFKELPPINSRQTNSSLGGIGDSNAYTTINSKKRSLEDNETEIKVSRDTWNTKNMRSLEPPRSKKRIHLIAAVKAVKSIKPIRTTLRYDEAITYNKDIKEKEKYIEAYHKEVNQLLKMKTWDTDEYYDRKEIDPKRVINSMFIFNKKRDGTHKARFVARGDIQHPDTYDSGMQSNTVHHYALMTSLSLALDNNYYITQLDISSAYLYADIKEELYIRPPPHLGMNDKLIRLKKSLYGLKQSGANWYETIKSYLIKQCGMEEVRGWSCVFKNSQVTICLFVDDMILFSKDLNANKKIITTLKKQYDTKIINLGESDNEIQYDILGLEIKYQRGKYMKLGMENSLTEKIPKLNVPLNPKGRKLSAPGQPGLYIDQDELEIDEDEYKEKVHEMQKLIGLASYVGYKFRFDLLYYINTLAQHILFPSRQVLDMTYELIQFMWDTRDKQLIWHKNKPTEPDNKLVAISDASYGNQPYYKSQIGNIYLLNGKVIGGKSTKASLTCTSTTEAEIHAISESVPLLNNLSYLIQELNKKPIIKGLLTDSRSTISIIKSTNEEKFRNRFFGTKAMRLRDEVSGNNLYVYYIETKKNIADVMTKPLPIKTFKLLTNKWIH + + +P31111 +D6VSR5 +ZIP1_YEAST + + +Synaptonemal complex protein ZIP1 + + + +ZIP1 +YDR285W +D9819.9 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +ZIP1 is a synaptonemal complex protein required for meiotic chromosome synapsis. + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +BR1824-3B + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome IV. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Global analysis of protein expression in yeast. + + + + + + + + + + + + + +LEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS] + + + +A multidimensional chromatography technology for in-depth phosphoproteome analysis. + + + + + + + + + + + +PHOSPHORYLATION [LARGE SCALE ANALYSIS] AT SER-481 +IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS] + + +Required for meiotic chromosome synapsis and cell cycle progression. May act as a molecular zipper to bring homologous chromosomes in close apposition. ZIP1 may encode the transverse filaments of the synaptonemal complex. + + + +P31111 + + +Q06032 + + +false +3 + + + +Nucleus + + +Chromosome + +Synapsed meiotic chromosomes. + + +Present with 391 molecules/cell in log phase SD medium. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Chromosome +Coiled coil +Meiosis +Nucleus +Phosphoprotein +Reference proteome + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +T +A + + + + + + + + + + + + + + + + +MSNFFRDSSMGFKPRPNIFAKLRVRDVDSDSSANTVVENSSNCLDVGSSIEGDDTFKKPHKTSTEQELITSMSLSQRNHGYSDDMEIGSPKKTTSTDQYNRILKNDVAAIENDTDEDFEITEVREVSEGVAKETKESHGDPNDSETTLKDSKMHEYTMTNGKAPLHTSINNSSTSSNDVLLEAFTNTQRICSNLKQELQKQQQDNAKLKVRLQSYASNSDKINEKVGKYKSCLETLQERIATLTSHKNNQETKLKDLRQNHQLYQRRISGFKTSIENLNKTINDLGKNKKEADAELMKKGKEIEYLKRELDDCSGQLSEEKIKNSSLIQEMGKNREEMIKSIENFFSEDKAHHLLQFNKFEERVHDLFEKKLQKHFDVAKDTLNVGLRNTTVELSSNTETMLKQQYEDIKENLEQKMSSSKDEMAKTINELSVTQKGLIMGVQEELLTSSGNIQTALVSEMNNTRQELLDDASQTAKNYASLENLVKAYKAEIVQSNEYEERIKHLESERSTLSSQKNQIISSLGTKEAQYEDLVKKLEAKNIEISQISGKEQSLTEKNENLSNELKKVQDQLEKLNNLNITTKSNYENKISSQNEIVKALVSENDTLKQRIQQLVEIKENEQKDHTTKLEAFQKNNEQLQKLNVEVVQLKAHELELEEQNRHLKNCLEKKETGVEESLSDVKTLKQQVIVLKSEKQDITAEKLELQDNLESLEEVTKNLQQKVQSQKRELEQKIKELEEIKNHKRNEPSKKGTQNFTKPSDSPKKNATTSNLFPNNSAAIHSPMKKCPKVDHISKSRINSSKETSKFNDEFDLSSSSNDDLELTNPSPIQIKPVRGKIKKGSNCMKPPISSRKKLLLVEDEDQSLKISKKRRRK + + +P0CX75 +D6VWK0 +P47097 +Q66R50 +YL13A_YEAST + + +Transposon Ty1-LR3 Gag polyprotein + + +Gag-p49 + + +Transposon Ty1 protein A +TY1A +TYA + + +p58 + + + +Capsid protein +CA + + +Gag-p45 + + +p54 + + + + +Gag-p4 + + + + +TY1A-LR3 +YLRWTy1-3 GAG +YLR227W-A +L8083.11 + + +Saccharomyces cerevisiae (strain ATCC 204508 / S288c) +Baker's yeast + + +Eukaryota +Fungi +Dikarya +Ascomycota +Saccharomycotina +Saccharomycetes +Saccharomycetales +Saccharomycetaceae +Saccharomyces + + + + +The nucleotide sequence of Saccharomyces cerevisiae chromosome XII. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA] + +ATCC 204508 / S288c + + + + +The reference genome sequence of Saccharomyces cerevisiae: Then and now. + + + + + + + + + + + + + + + + + + + + + + +GENOME REANNOTATION + +ATCC 204508 / S288c + + + + +Approaching a complete repository of sequence-verified protein-encoding clones for Saccharomyces cerevisiae. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +NUCLEOTIDE SEQUENCE [GENOMIC DNA] + +ATCC 204508 / S288c + + + + +Transposable elements and genome organization: a comprehensive survey of retrotransposons revealed by the complete Saccharomyces cerevisiae genome sequence. + + + + + + + + + + +NOMENCLATURE + + + +Differential effects of chromatin and Gcn4 on the 50-fold range of expression among individual yeast Ty1 retrotransposons. + + + + + + + + + +INDUCTION + + + +Happy together: the life and times of Ty retrotransposons and their hosts. + + + + + + + +REVIEW + + +Capsid protein (CA) is the structural component of the virus-like particle (VLP), forming the shell that encapsulates the retrotransposons dimeric RNA genome. The particles are assembled from trimer-clustered units and there are holes in the capsid shells that allow for the diffusion of macromolecules. CA has also nucleocapsid-like chaperone activity, promoting primer tRNA(i)-Met annealing to the multipartite primer-binding site (PBS), dimerization of Ty1 RNA and initiation of reverse transcription (By similarity). + + +Homotrimer. + + + +Cytoplasm + + + + + +P0CX75-1 +Transposon Ty1-LR3 Gag polyprotein + + + +P0C2I6-1 +Transposon Ty1-LR3 Gag-Pol polyprotein + + +The Gag-Pol polyprotein is generated by a +1 ribosomal frameshift. The ratio of Gag:Gag-Pol varies between 20:1 and 5:1 (By similarity). + + +Ty1-LR3 is a highly expressed element. Induced under amino acid starvation conditions by GCN4. + + +The C-terminal RNA-binding region of CA is sufficient for all its nucleocapsid-like chaperone activities. + + +Retrotransposons are mobile genetic entities that are able to replicate via an RNA intermediate and a reverse transcription step. In contrast to retroviruses, retrotransposons are non-infectious, lack an envelope and remain intracellular. Ty1 retrotransposons belong to the copia elements (pseudoviridae). + + +Isoform Transposon Ty1-LR3 Gag polyprotein +Produced by conventional translation. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Cytoplasm +Phosphoprotein +Reference proteome +Ribosomal frameshifting +RNA-binding +Transposable element + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +S +G + + + + + + + + + + + + + + + + +MESQQLSQHSHISHGSACASVTSKEVHTNQDPLDVSASKTEECEKASTKANSQQTTTPASSAVPENPHHASPQPASVPPPQNGPYPQQCMMTQNQANPSGWSFYGHPSMIPYTPYQMSPMYFPPGPQSQFPQYPSSVGTPLSTPSPESGNTFTDSSSADSDMTSTKKYVRPPPMLTSPNDFPNWVKTYIKFLQNSNLGGIIPTVNGKPVRQITDDELTFLYNTFQIFAPSQFLPTWVKDILSVDYTDIMKILSKSIEKMQSDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQGSRNSKPNYRRNLSDEKNDSRSYTNTTKPKVIARNPQKTNNSKSKTARAHNVSTSNNSPSTDNDSISKSTTEPIQLNNKHDLHLRPGTY + + +Copyrighted by the UniProt Consortium, see https://www.uniprot.org/terms +Distributed under the Creative Commons Attribution (CC BY 4.0) License + + From 48d3dfdcaffc50fed820c991ca3a2e64df3f6941 Mon Sep 17 00:00:00 2001 From: Jim Johnson Date: Tue, 4 May 2021 16:25:56 -0500 Subject: [PATCH 2/6] Create .shed.yml --- tools/metamorpheus/.shed.yml | 16 ++++++++++++++++ 1 file changed, 16 insertions(+) create mode 100644 tools/metamorpheus/.shed.yml diff --git a/tools/metamorpheus/.shed.yml b/tools/metamorpheus/.shed.yml new file mode 100644 index 000000000..270d94dc7 --- /dev/null +++ b/tools/metamorpheus/.shed.yml @@ -0,0 +1,16 @@ +owner: galaxyp +name: metamorpheus +categories: +- Proteomics +description: MetaMorpheus MS Search Application +long_description: | + MetaMorpheus is a bottom-up proteomics database search software + with integrated post-translational modification (PTM) discovery capability. + This application combines features of Morpheus and G-PTM-D in a single tool. + + Features automatic inclusion of known PTMs (Post Translational Modifications) + when a UniProt Proteome is used as the search database. + +homepage_url: https://github.com/smith-chem-wisc/MetaMorpheus +remote_repository_url: https://github.com/galaxyproteomics/tools-galaxyp/tree/master/tools/metamorpheus +type: unrestricted From 775042a4e883463133609e2b395dd44babe798d8 Mon Sep 17 00:00:00 2001 From: Jim Johnson Date: Wed, 5 May 2021 06:20:45 -0500 Subject: [PATCH 3/6] Add profile 21.05 for toml datatype Add profile 21.05 for toml datatype Fix metamorpheus_calibration.xml test output element name --- tools/metamorpheus/macros.xml | 1 + tools/metamorpheus/metamorpheus_calibration.xml | 7 ++++--- tools/metamorpheus/metamorpheus_g_ptm_d.xml | 2 +- tools/metamorpheus/metamorpheus_search.xml | 2 +- 4 files changed, 7 insertions(+), 5 deletions(-) diff --git a/tools/metamorpheus/macros.xml b/tools/metamorpheus/macros.xml index cd2059e74..276bd96fb 100644 --- a/tools/metamorpheus/macros.xml +++ b/tools/metamorpheus/macros.xml @@ -1,4 +1,5 @@ + 21.05 0.0.316 0 diff --git a/tools/metamorpheus/metamorpheus_calibration.xml b/tools/metamorpheus/metamorpheus_calibration.xml index 719a487c4..02ecd412b 100644 --- a/tools/metamorpheus/metamorpheus_calibration.xml +++ b/tools/metamorpheus/metamorpheus_calibration.xml @@ -1,4 +1,4 @@ - + identify peptides by their calibrate the m/z values of all peaks in the spectra macros.xml @@ -49,9 +49,10 @@ metamorpheus - + - + + diff --git a/tools/metamorpheus/metamorpheus_g_ptm_d.xml b/tools/metamorpheus/metamorpheus_g_ptm_d.xml index fbfca6cce..b42d2edb3 100644 --- a/tools/metamorpheus/metamorpheus_g_ptm_d.xml +++ b/tools/metamorpheus/metamorpheus_g_ptm_d.xml @@ -1,4 +1,4 @@ - + Post-translational modification (PTM) discovery macros.xml diff --git a/tools/metamorpheus/metamorpheus_search.xml b/tools/metamorpheus/metamorpheus_search.xml index efa6107ec..ee7c6b593 100644 --- a/tools/metamorpheus/metamorpheus_search.xml +++ b/tools/metamorpheus/metamorpheus_search.xml @@ -1,4 +1,4 @@ - + identify peptides by their fragmentation spectra macros.xml From 7c57a8a9d8cf63e1eb01d7318e8ce83a47332b76 Mon Sep 17 00:00:00 2001 From: Jim Johnson Date: Tue, 11 May 2021 08:34:10 -0500 Subject: [PATCH 4/6] Add mmsettings option Add --mmsettings option to prevent attempts to write to install code directory --- tools/metamorpheus/metamorpheus_calibration.xml | 1 + tools/metamorpheus/metamorpheus_g_ptm_d.xml | 1 + tools/metamorpheus/metamorpheus_search.xml | 1 + 3 files changed, 3 insertions(+) diff --git a/tools/metamorpheus/metamorpheus_calibration.xml b/tools/metamorpheus/metamorpheus_calibration.xml index 02ecd412b..cf796f00b 100644 --- a/tools/metamorpheus/metamorpheus_calibration.xml +++ b/tools/metamorpheus/metamorpheus_calibration.xml @@ -13,6 +13,7 @@ metamorpheus -s $inputs_dir -d #echo ' '.join($database_names)# -o output +--mmsettings data ]]> Date: Wed, 12 May 2021 08:26:46 -0500 Subject: [PATCH 5/6] Update metamorpheus_calibration.xml Don't expect exact number of reported datapoints --- tools/metamorpheus/metamorpheus_calibration.xml | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/tools/metamorpheus/metamorpheus_calibration.xml b/tools/metamorpheus/metamorpheus_calibration.xml index cf796f00b..bf61ecb55 100644 --- a/tools/metamorpheus/metamorpheus_calibration.xml +++ b/tools/metamorpheus/metamorpheus_calibration.xml @@ -45,7 +45,7 @@ metamorpheus - + From 4c292fe13d367cd625f5c5355ff84180f29e17b9 Mon Sep 17 00:00:00 2001 From: Jim Johnson Date: Fri, 9 Jul 2021 08:17:49 -0500 Subject: [PATCH 6/6] MetaMorpheus param fixes MetaMorpheus param fixes - need double quotes around string types --- tools/metamorpheus/macros.xml | 9 +++++---- 1 file changed, 5 insertions(+), 4 deletions(-) diff --git a/tools/metamorpheus/macros.xml b/tools/metamorpheus/macros.xml index 276bd96fb..97f50393d 100644 --- a/tools/metamorpheus/macros.xml +++ b/tools/metamorpheus/macros.xml @@ -467,6 +467,7 @@ UniProt = 2 + @@ -514,10 +515,10 @@ QValueOutputFilter = $common.QValueOutputFilter AssumeOrphanPeaksAreZ1Fragments = $common.AssumeOrphanPeaksAreZ1Fragments MaxHeterozygousVariants = $common.MaxHeterozygousVariants MinVariantDepth = $common.MinVariantDepth -DissociationType = $common.DissociationType -SeparationType = $common.SeparationType -MS2ChildScanDissociationType = $common.MS2ChildScanDissociationType -MS3ChildScanDissociationType = $common.MS3ChildScanDissociationType +DissociationType = "$common.DissociationType" +SeparationType = "$common.SeparationType" +MS2ChildScanDissociationType = "$common.MS2ChildScanDissociationType" +MS3ChildScanDissociationType = "$common.MS3ChildScanDissociationType" #else DoPrecursorDeconvolution = true UseProvidedPrecursorInfo = true