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Spatiotemporal variation of mammalian protein complex stoichiometries.

Genome biology (2016-03-16)
Alessandro Ori, Murat Iskar, Katarzyna Buczak, Panagiotis Kastritis, Luca Parca, Amparo Andrés-Pons, Stephan Singer, Peer Bork, Martin Beck
ABSTRACT

Recent large-scale studies revealed cell-type specific proteomes. However, protein complexes, the basic functional modules of a cell, have been so far mostly considered as static entities with well-defined structures. The co-expression of their members has not been systematically charted at the protein level. We used measurements of protein abundance across 11 cell types and five temporal states to analyze the co-expression and the compositional variations of 182 well-characterized protein complexes. We show that although the abundance of protein complex members is generally co-regulated, a considerable fraction of all investigated protein complexes is subject to stoichiometric changes. Compositional variation is most frequently seen in complexes involved in chromatin regulation and cellular transport, and often involves paralog switching as a mechanism for the regulation of complex stoichiometry. We demonstrate that compositional signatures of variable protein complexes have discriminative power beyond individual cell states and can distinguish cancer cells from healthy ones. Our work demonstrates that many protein complexes contain variable members that cause distinct stoichometries and functionally fine-tune complexes spatiotemporally. Only a fraction of these compositional variations is mediated by changes in transcription and other mechanisms regulating protein abundance contribute to determine protein complex stoichiometries. Our work highlights the superior power of proteome profiles to study protein complexes and their variants across cell states.

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Sigma-Aldrich
Ribonucleasi A, (Solution of 50% glycerol, 10mM Tris-HCL pH 8.0)
Sigma-Aldrich
L-(−)-Glucose, ≥99%