School of Life Sciences, École Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland.
Swiss Institute of Bioinformatics (SIB), Lausanne, Switzerland.
Evolution. 2017 Dec;71(12):2858-2870. doi: 10.1111/evo.13383. Epub 2017 Nov 16.
Here, I provide the first direct estimate of the spontaneous mutation rate in an Old World monkey, using a seven individual, three-generation pedigree of African green monkeys. Eight de novo mutations were identified within ∼1.5 Gbp of accessible genome, corresponding to an estimated point mutation rate of 0.94 × 10 per site per generation, suggesting an effective population size of ∼12000 for the species. This estimation represents a significant improvement in our knowledge of the population genetics of the African green monkey, one of the most important nonhuman primate models in biomedical research. Furthermore, by comparing mutation rates in Old World monkeys with the only other direct estimates in primates to date-humans and chimpanzees-it is possible to uniquely address how mutation rates have evolved over longer time scales. While the estimated spontaneous mutation rate for African green monkeys is slightly lower than the rate of 1.2 × 10 per base pair per generation reported in chimpanzees, it is similar to the lower range of rates of 0.96 × 10 -1.28 × 10 per base pair per generation recently estimated from whole genome pedigrees in humans. This result suggests a long-term constraint on mutation rate that is quite different from similar evidence pertaining to recombination rate evolution in primates.
在这里,我利用 7 只个体、3 代谱系的非洲绿猴,提供了对旧世界猴自发突变率的首次直接估计。在可及基因组的约 1.5 Gbp 范围内鉴定出 8 个新出现的突变,对应于每个位点每代约 0.94×10 的估计点突变率,表明该物种的有效种群大小约为 12000。这一估计极大地提高了我们对非洲绿猴群体遗传学的认识,非洲绿猴是生物医学研究中最重要的非人类灵长类动物模型之一。此外,通过比较旧世界猴的突变率与迄今为止灵长类动物中唯一的其他直接估计值——人类和黑猩猩,有可能独特地解决突变率在更长时间尺度上是如何进化的问题。虽然非洲绿猴的自发突变率略低于黑猩猩报告的每代每碱基对 1.2×10 的速率,但与最近从人类全基因组谱系中估计的每代每碱基对 0.96×10-1.28×10 的较低速率范围相似。这一结果表明,突变率受到长期限制,这与灵长类动物有关重组率进化的类似证据有很大不同。
