Cross‐talk between phosphorylation and lysine acetylation in a genome‐reduced bacterium

Cross‐talk between phosphorylation and lysine acetylation in a genome‐reduced bacterium

Abstract Protein post‐translational modifications (PTMs) represent important regulatory states that when combined have been hypothesized to act as molecular codes and to generate a functional diversity beyond genome and transcriptome. We systematically investigate the interplay of protein phosphoryl...

Full description

Saved in:
Bibliographic Details
Main Authors: Vera van Noort, Jan Seebacher, Samuel Bader, Shabaz Mohammed, Ivana Vonkova, Matthew J Betts, Sebastian Kühner, Runjun Kumar, Tobias Maier, Martina O'Flaherty, Vladimir Rybin, Arne Schmeisky, Eva Yus, Jörg Stülke, Luis Serrano, Robert B Russell, Albert JR Heck, Peer Bork, Anne‐Claude Gavin
Format: Article
Language:English
Published: Springer Nature 2012-02-01
Series:Molecular Systems Biology
Subjects:
kinase
N‐acetyltransferase
network
phosphatase
post‐translational modification
Online Access:https://doi.org/10.1038/msb.2012.4
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Abstract Protein post‐translational modifications (PTMs) represent important regulatory states that when combined have been hypothesized to act as molecular codes and to generate a functional diversity beyond genome and transcriptome. We systematically investigate the interplay of protein phosphorylation with other post‐transcriptional regulatory mechanisms in the genome‐reduced bacterium Mycoplasma pneumoniae. Systematic perturbations by deletion of its only two protein kinases and its unique protein phosphatase identified not only the protein‐specific effect on the phosphorylation network, but also a modulation of proteome abundance and lysine acetylation patterns, mostly in the absence of transcriptional changes. Reciprocally, deletion of the two putative N‐acetyltransferases affects protein phosphorylation, confirming cross‐talk between the two PTMs. The measured M. pneumoniae phosphoproteome and lysine acetylome revealed that both PTMs are very common, that (as in Eukaryotes) they often co‐occur within the same protein and that they are frequently observed at interaction interfaces and in multifunctional proteins. The results imply previously unreported hidden layers of post‐transcriptional regulation intertwining phosphorylation with lysine acetylation and other mechanisms that define the functional state of a cell.
ISSN:1744-4292

Similar Items