PLoS ONE (Oct 2007)

The origins of novel protein interactions during animal opsin evolution.

  • David C Plachetzki,
  • Bernard M Degnan,
  • Todd H Oakley

DOI
https://doi.org/10.1371/journal.pone.0001054
Journal volume & issue
Vol. 2, no. 10
p. e1054

Abstract

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BackgroundBiologists are gaining an increased understanding of the genetic bases of phenotypic change during evolution. Nevertheless, the origins of phenotypes mediated by novel protein-protein interactions remain largely undocumented.Methodology/principle findingsHere we analyze the evolution of opsin visual pigment proteins from the genomes of early branching animals, including a new class of opsins from Cnidaria. We combine these data with existing knowledge of the molecular basis of opsin function in a rigorous phylogenetic framework. We identify adaptive amino acid substitutions in duplicated opsin genes that correlate with a diversification of physiological pathways mediated by different protein-protein interactions.Conclusions/significanceThis study documents how gene duplication events early in the history of animals followed by adaptive structural mutations increased organismal complexity by adding novel protein-protein interactions that underlie different physiological pathways. These pathways are central to vision and other photo-reactive phenotypes in most extant animals. Similar evolutionary processes may have been at work in generating other metazoan sensory systems and other physiological processes mediated by signal transduction.