Department of Biology, Stanford University, Stanford, CA 94305, USA.
Proc Natl Acad Sci U S A. 2011 Dec 20;108(51):20666-71. doi: 10.1073/pnas.1114573108. Epub 2011 Dec 5.
Molecular adaptation is typically assumed to proceed by sequential fixation of beneficial mutations. In diploids, this picture presupposes that for most adaptive mutations, the homozygotes have a higher fitness than the heterozygotes. Here, we show that contrary to this expectation, a substantial proportion of adaptive mutations should display heterozygote advantage. This feature of adaptation in diploids emerges naturally from the primary importance of the fitness of heterozygotes for the invasion of new adaptive mutations. We formalize this result in the framework of Fisher's influential geometric model of adaptation. We find that in diploids, adaptation should often proceed through a succession of short-lived balanced states that maintain substantially higher levels of phenotypic and fitness variation in the population compared with classic adaptive walks. In fast-changing environments, this variation produces a diversity advantage that allows diploids to remain better adapted compared with haploids despite the disadvantage associated with the presence of unfit homozygotes. The short-lived balanced states arising during adaptive walks should be mostly invisible to current scans for long-term balancing selection. Instead, they should leave signatures of incomplete selective sweeps, which do appear to be common in many species. Our results also raise the possibility that balancing selection, as a natural consequence of frequent adaptation, might play a more prominent role among the forces maintaining genetic variation than is commonly recognized.
分子适应通常被认为是通过有利突变的连续固定来进行的。在二倍体中,这种情况假定对于大多数适应性突变,纯合子的适应性比杂合子高。在这里,我们表明,与这种预期相反,相当一部分适应性突变应该表现出杂合优势。二倍体适应的这一特征是从杂合子对新适应性突变入侵的适应性的重要性中自然产生的。我们在 Fisher 有影响力的适应性几何模型框架中形式化了这一结果。我们发现,在二倍体中,适应通常应该通过一系列短暂的平衡状态进行,这些平衡状态与经典适应性进化相比,在种群中维持更高水平的表型和适应性变异。在快速变化的环境中,这种变异产生了多样性优势,使二倍体在适应方面比单倍体更好,尽管存在不适应的纯合子带来的劣势。适应性进化过程中出现的短暂平衡状态在当前对长期平衡选择的扫描中大多是不可见的。相反,它们应该留下不完全选择清除的迹象,而不完全选择清除在许多物种中似乎确实很常见。我们的研究结果还表明,平衡选择可能作为频繁适应的自然结果,在维持遗传变异的力量中发挥比普遍认识更突出的作用。