具有线性染色体的大型有性种群中的适应率。

The rate of adaptation in large sexual populations with linear chromosomes.

作者信息

Weissman Daniel B, Hallatschek Oskar

机构信息

Institute of Science and Technology Austria, A-3400 Klosterneuburg, Austria.

出版信息

Genetics. 2014 Apr;196(4):1167-83. doi: 10.1534/genetics.113.160705. Epub 2014 Jan 15.

DOI:10.1534/genetics.113.160705

PMID:24429280

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3982688/

Abstract

In large populations, multiple beneficial mutations may be simultaneously spreading. In asexual populations, these mutations must either arise on the same background or compete against each other. In sexual populations, recombination can bring together beneficial alleles from different backgrounds, but tightly linked alleles may still greatly interfere with each other. We show for well-mixed populations that when this interference is strong, the genome can be seen as consisting of many effectively asexual stretches linked together. The rate at which beneficial alleles fix is thus roughly proportional to the rate of recombination and depends only logarithmically on the mutation supply and the strength of selection. Our scaling arguments also allow us to predict, with reasonable accuracy, the fitness distribution of fixed mutations when the mutational effect sizes are broad. We focus on the regime in which crossovers occur more frequently than beneficial mutations, as is likely to be the case for many natural populations.

摘要

在大规模种群中，多个有益突变可能会同时传播。在无性繁殖种群中，这些突变要么出现在相同的背景中，要么相互竞争。在有性繁殖种群中，重组可以将来自不同背景的有益等位基因聚集在一起，但紧密连锁的等位基因可能仍然会相互严重干扰。我们证明，对于充分混合的种群，当这种干扰很强时，基因组可以被视为由许多有效地连接在一起的无性片段组成。因此，有益等位基因固定的速率大致与重组速率成正比，并且仅对数依赖于突变供应和选择强度。当突变效应大小范围广泛时，我们的标度论证还使我们能够以合理的精度预测固定突变的适应度分布。我们关注的是交叉发生频率高于有益突变的情况，许多自然种群可能就是这种情况。

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