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Pré-Publication, Document De Travail Année : 2023

Bursts of novel composite gene families at major nodes in animal evolution

Peter Mulhair
Raymond Moran
  • Fonction : Auteur
Jananan Pathmanathan
  • Fonction : Auteur
Duncan Sussfeld
  • Fonction : Auteur
Christopher Creevey
  • Fonction : Auteur
Karen Siu-Ting
Fiona Whelan
Davide Pisani
Bede Constantinides
  • Fonction : Auteur
Philippe Lopez
  • Fonction : Auteur
Eric Bapteste
  • Fonction : Auteur
James Mcinerney
  • Fonction : Auteur
Mary O’connell

Résumé

Abstract A molecular level perspective on how novel phenotypes evolve is contingent on our understanding of how genomes evolve through time, and of particular interest is how novel elements emerge or are lost. Mechanisms of protein evolution such as gene duplication have been well established. Studies of gene fusion events show they often generate novel functions and adaptive benefits. Identifying gene fusion and fission events on a genome scale allows us to establish the mode and tempo of emergence of composite genes across the animal tree of life, and allows us to test the repeatability of evolution in terms of determining how often composite genes can arise independently. Here we show that ∼5% of all animal gene families are composite, and their phylogenetic distribution suggests an abrupt, rather than gradual, emergence during animal evolution. We find that gene fusion occurs at a higher rate than fission (73.3% vs 25.4%) in animal composite genes, but many gene fusions (79% of the 73.3%) have more complex patterns including subsequent fission or loss. We demonstrate that nodes such as Bilateria, Euteleostomi, and Eutheria, have significantly higher rates of accumulation of composite genes. We observe that in general deuterostomes have a greater amount of composite genes as compared to protostomes. Intriguingly, up to 41% of composite gene families have evolved independently in different clades showing that the same solutions to protein innovation have evolved time and again in animals. Significance statement New genes emerge and are lost from genomes over time. Mechanisms that can produce new genes include, but are not limited to, gene duplication, retrotransposition, de novo gene genesis, and gene fusion/fission. In this work, we show that new genes formed by fusing distinct homologous gene families together comprise a significant portion of the animal proteome. Their pattern of emergence through time is not gradual throughout the animal phylogeny - it is intensified on nodes of major transition in animal phylogeny. Interestingly, we see that evolution replays the tape frequently in these genes with 41% of gene fusion/fission events occurring independently throughout animal evolution.

Dates et versions

hal-04394306 , version 1 (15-01-2024)

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Peter Mulhair, Raymond Moran, Jananan Pathmanathan, Duncan Sussfeld, Christopher Creevey, et al.. Bursts of novel composite gene families at major nodes in animal evolution. 2024. ⟨hal-04394306⟩
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