PLoS Computational Biology (Jan 2013)

Shared protein complex subunits contribute to explaining disrupted co-occurrence.

  • Adrian Schneider,
  • Michael F Seidl,
  • Berend Snel

DOI
https://doi.org/10.1371/journal.pcbi.1003124
Journal volume & issue
Vol. 9, no. 7
p. e1003124

Abstract

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The gene composition of present-day genomes has been shaped by a complicated evolutionary history, resulting in diverse distributions of genes across genomes. The pattern of presence and absence of a gene in different genomes is called its phylogenetic profile. It has been shown that proteins whose encoding genes have highly similar profiles tend to be functionally related: As these genes were gained and lost together, their encoded proteins can probably only perform their full function if both are present. However, a large proportion of genes encoding interacting proteins do not have matching profiles. In this study, we analysed one possible reason for this, namely that phylogenetic profiles can be affected by multi-functional proteins such as shared subunits of two or more protein complexes. We found that by considering triplets of proteins, of which one protein is multi-functional, a large fraction of disturbed co-occurrence patterns can be explained.