Abstract
Mutations are the origin of genetic diversity, and the mutation rate is a fundamental parameter to understand all aspects of molecular evolution. The combination of mutation–accumulation experiments and high-throughput sequencing enabled the estimation of mutation rates in most model organisms, but several major eukaryotic lineages remain unexplored. Here, we report the first estimation of the spontaneous mutation rate in a model unicellular eukaryote from the Stramenopile kingdom, the diatom Phaeodactylum tricornutum (strain RCC2967). We sequenced 36 mutation accumulation lines for an average of 181 generations per line and identified 156 de novo mutations. The base substitution mutation rate per site per generation is μbs = 4.77 × 10−10 and the insertion–deletion mutation rate is μid = 1.58 × 10−11. The mutation rate varies as a function of the nucleotide context and is biased toward an excess of mutations from GC to AT, consistent with previous observations in other species. Interestingly, the mutation rates between the genomes of organelles and the nucleus differ, with a significantly higher mutation rate in the mitochondria. This confirms previous claims based on indirect estimations of the mutation rate in mitochondria of photosynthetic eukaryotes that acquired their plastid through a secondary endosymbiosis. This novel estimate enables us to infer the effective population size of P. tricornutum to be Ne∼8.72 × 106.
Highlights
The direct estimation of the spontaneous mutation rate (l) is one of the most exciting possibilities in evolutionary biology since the development of high-throughput “evolve and resequence” experiments (Katju and Bergthorsson 2019)
The difference between the observed GC content and the equilibrium GC content leads to a 15.4% increase in the mutation rate in this species. This first estimation of a spontaneous mutation rate in a species belonging to the Stramenopile kingdom is consistent with previous estimates in four phytoplanktonic species from the Mamiellophyceae class
It is similar to the spontaneous mutation rates of 4.79 Â 10À10 mutations per site per generation reported in the model species O. tauri (Krasovec et al 2017)
Summary
The direct estimation of the spontaneous mutation rate (l) is one of the most exciting possibilities in evolutionary biology since the development of high-throughput “evolve and resequence” experiments (Katju and Bergthorsson 2019). Our current knowledge points to a high variation in the mutation rate between species (Lynch et al 2016; Katju and Bergthorsson 2019).
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