Model-Based Inference of Punctuated Molecular Evolution
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Date
2020-11
Publication Type
Journal Article
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yes
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Abstract
In standard models of molecular evolution, DNA sequences evolve through asynchronous substitutions according to Poisson processes with a constant rate (called the molecular clock) or a rate that can vary (relaxed clock). However, DNA sequences can also undergo episodes of fast divergence that will appear as synchronous substitutions affecting several sites simultaneously at the macroevolutionary timescale. Here, we develop a model, which we call the Relaxed Clock with Spikes model, combining basal, clock-like molecular substitutions with episodes of fast divergence called spikes arising at speciation events. Given a multiple sequence alignment and its time-calibrated species phylogeny, our model is able to detect speciation events (including hidden ones) cooccurring with spike events and to estimate the probability and amplitude of these spikes on the phylogeny. We identify the conditions under which spikes can be distinguished from the natural variance of the clock-like component of molecular substitutions and from variations of the clock. We apply the method to genes underlying snake venom proteins and identify several spikes at gene-specific locations in the phylogeny. This work should pave the way for analyses relying on whole genomes to inform on modes of species diversification.
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published
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Journal / series
Volume
37 (11)
Pages / Article No.
3308 - 3323
Publisher
Oxford University Press
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Subject
Punctuated equilibrium theory; Relaxed molecular clock; Speciation genomics; Diversification; Ecological speciation; gene flow
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Notes
It was possible to publish this article open access thanks to a Swiss National Licence with the publisher.