Proteomics

Dataset Information

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Sulfolobus islandicus PTM and quantitative study using bottom-up proteomics


ABSTRACT: Protein posttranslational methylation and acetylation have been reported to occur in archaea, including the genus Sulfolobus, but have never been characterized on a proteome-wide scale. Among important Sulfolobus proteins carrying such modifications are the chromatin proteins that have been described to be methylated and acetylated on lysine side chains, resembling eukaryotic histones in that aspect. To get more insight into the extent of these modifications and their dynamics during the different growth steps of the thermoacidophylic archaeon S. islandicus , we performed a global and deep proteomics analysis using a combination of high-throughput bottom-up and top-down proteomics approaches on a single high-resolution mass spectrometer. 1,931 methylation sites on 751 proteins were found by the bottom-up analysis, with methylation sites of 424-526 proteins monitored throughout three cell culture growth stages: Early, Mid and Late. The previously described aKMT4 methyltransferase was found to be potentially responsible for this massive modification.

INSTRUMENT(S): Orbitrap Fusion ETD

ORGANISM(S): Escherichia Coli Sulfolobus Islandicus Lal14/1

SUBMITTER: Egor Vorontsov  

LAB HEAD: Julia Chamot-Rooke

PROVIDER: PXD004179 | Pride | 2016-09-13

REPOSITORIES: Pride

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Publications

Abundant Lysine Methylation and N-Terminal Acetylation in Sulfolobus islandicus Revealed by Bottom-Up and Top-Down Proteomics.

Vorontsov Egor A EA   Rensen Elena E   Prangishvili David D   Krupovic Mart M   Chamot-Rooke Julia J  

Molecular & cellular proteomics : MCP 20160823 11


Protein post-translational methylation has been reported to occur in archaea, including members of the genus Sulfolobus, but has never been characterized on a proteome-wide scale. Among important Sulfolobus proteins carrying such modification are the chromatin proteins that have been described to be methylated on lysine side chains, resembling eukaryotic histones in that aspect. To get more insight into the extent of this modification and its dynamics during the different growth steps of the the  ...[more]

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