物种局部适应的遗传结构

Fabien Laroche, Thomas Lenormand
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引用次数: 0

摘要

地方适应是普遍存在的。只要在不同的环境中存在相应性状的遗传变异,并且选择的影响大于漂变和迁移的影响,选择就会倾向于不同的表型。在许多情况下,生态相关性状是定量的,由许多基因控制。人们一再提出,这些基因在基因组中的定位可能不是随机的,而是一种进化的特征。特别是,局部适应基因的聚类在理论上是可以预料到的,并且在一些情况下已经被观察到。先前的理论主要集中在两斑块或大陆-岛屿模型上来研究这一现象,得出的结论是,这种集群可以进化,但在相对有限的条件下。特别是,它要求迁移率不能太低也不能太大,而且性状值的完全优化最终不能通过单个位点的突变来实现。在这里,我们在一个空间显式模型中研究了这个问题,考虑了两个相邻的栖息地,它们在圆形垫脚石上具有不同的特征最优。我们发现,无论是在局部适应的建立阶段,还是在随后不同遗传结构相互竞争的“重构”阶段,物种内部都普遍存在局部适应基因的聚类现象。我们还表明,改变性状与适应度相关的适应度函数对整体进化动力学和最终结构有很大的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The genetic architecture of local adaptation in a cline
Local adaptation is pervasive. It occurs whenever selection favors different phenotypes in different environments, provided that there is genetic variation for the corresponding traits and that the effect of selection is greater than the effect of drift and migration. In many cases, ecologically relevant traits are quantitative and controlled by many genes. It has been repeatedly proposed that the localization of these genes in the genome may not be random, but could be an evolved feature. In particular, the clustering of local adaptation genes may be theoretically expected and has been observed in several situations. Previous theory has focused on two-patch or continent-island models to investigate this phenomenon, reaching the conclusion that such clustering could evolve, but in relatively limited conditions. In particular, it required that migration rate was neither too low nor too large and that the full optimization of trait values could not be eventually achieved by a mutation at a single locus. Here, we investigate this question in a spatially-explicit model, considering two contiguous habitats with distinct trait optima on a circular stepping-stone. We find that clustering of local-adaptation genes is pervasive within clines during both the establishment phase of local adaptation and the subsequent “reconfiguration” phase where different genetic architectures compete with each other. We also show that changing the fitness function relating trait to fitness has a strong impact on the overall evolutionary dynamics and resulting architecture.
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