期刊
METHODS IN ECOLOGY AND EVOLUTION
卷 12, 期 10, 页码 1875-1887出版社
WILEY
DOI: 10.1111/2041-210X.13680
关键词
brownian model; functional evolution; gene duplication; pairwise comparisons; phylogenetic independent contrasts; simulation
类别
资金
- Swiss National Science Foundation [31003A_173048]
- Swiss National Science Foundation (SNF) [31003A_173048] Funding Source: Swiss National Science Foundation (SNF)
The study investigates comparative methods for gene function evolution, finding that both phylogenetic independent contrasts and pairwise comparisons lose power to detect functional evolution trends when the functional trait accelerates for a long time following duplication, with better power of phylogenetic contrasts under intermediate scenarios. Improved pairwise comparisons are robust to bias, and both approaches perform equally well under rapid shifts in traits.
Despite the importance of gene function to evolutionary biology, the applicability of comparative methods to gene function is poorly known. A specific case which has crystallized methodological questions is the 'orthologue conjecture', the hypothesis that function evolves faster after duplication (i.e. in paralogues), and conversely is conserved between orthologues. Since the mode of functional evolution after duplication is not well known, we investigate under which reasonable evolutionary scenarios phylogenetic independent contrasts or pairwise comparisons can recover a putative signal of different functional evolution between orthologues and paralogues. We investigate three different simulation models, which represent reasonable but simplified hypotheses about the evolution of a gene function trait. These are time-dependent trait acceleration, correlated changes in rates of both sequence and trait evolution and asymmetric trait jump. For each model we tested phylogenetic independent contrasts and an improved pairwise comparison method which accounts for interactions between events and node age. Both approaches lose power to detect the trend of functional evolution when the functional trait accelerates for a long time following duplication for trees with many duplications, with better power of phylogenetic contrasts under intermediate scenarios. Concomitant increase in evolutionary rates of sequence and of trait after duplication can lead to both an incorrect rejection of the null under null simulations of trait evolution, and a false rejection of the orthologue conjecture under orthologue conjecture simulations, by phylogenetic independent contrasts. Improved pairwise comparisons are robust to this bias. Both approaches perform equally well under rapid shifts in traits. Considering our ignorance of gene function evolution, and the potential for bias under simple models, we recommend methodological pluralism in studying gene family evolution. Functional phylogenomics is complex and results supported by only one method should be treated with caution.
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