Massively parallel interrogation of the fitness of natural variants in ancient signaling pathways reveals pervasive local adaptation.

Jose Aguilar-Rodriguez, Jean C C Vila, Shi-An A Chen, Manuel Razo-Mejia, Olivia M Ghosh, Daniel F Jarosz, Hunter B Fraser, Dmitri A Petrov
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Abstract

The nature of standing genetic variation remains a central debate in population genetics, with differing perspectives on whether common variants are almost always neutral as suggested by neutral and nearly neutral theories or whether they can commonly have large functional and fitness effects as proposed by the balance theory. We address this question by mapping the fitness effects of over 9,000 natural variants in the Ras/PKA and TOR/Sch9 pathways-key regulators of cell proliferation in eukaryotes-across four conditions in Saccharomyces cerevisiae . While most variants are neutral in our assay, ~3,500 exhibited significant fitness effects. These non-neutral variants tend to be missense and to affect conserved, more densely packed, and less solvent-exposed protein regions. While some of these non-neutral variants are younger and rarer, and more often found in heterozygous states-consistent with purifying selection-a substantial fraction is present at high frequencies in the population, which is expected under balancing selection. Indeed, we find that variants with a positive fitness effect in our laboratory measurement show strong signs of local adaptation as they tend to be found specifically in domesticated strains isolated from human-made environments. Our findings support the view that while many common variants might be effectively neutral, a significant proportion have locally adaptive functional consequences and are driven into a subset of the population by local positive selection. This study highlights the potential to combine high-throughput precision genome editing with fitness measurements to explore natural genetic variation on a pathway-wide scale, thereby bridging the gap between population genetics and functional genomics to understand the nature of evolutionary forces in the wild.

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对古老信号通路中的自然变体进行大规模并行实验研究,揭示了纯化选择和局部适应两种情况。
恒定遗传变异的性质仍然是群体遗传学中的一个核心争论点,对于常见变异大多是中性的还是具有功能效应,存在着不同的观点。为了解决这个问题,我们直接绘制了真核生物细胞增殖的关键调控因子--Ras/PKA 和 TOR/Sch9 通路中的 9000 多个天然变异在酿酒酵母四种条件下的适应性效应图。虽然许多变体在我们的检测中是中性的,但大约有 3500 个变体表现出显著的适应性影响。这些非中性变体往往是错义变体,影响保守的、更密集的和更少暴露于溶剂的蛋白质区域。它们的年龄通常较小,出现频率较低,而且更经常出现在杂合状态下,这表明它们受到了纯化选择的影响。然而,在我们的实验中,有相当一部分非中性变体表现出很强的适应性效应,它们在种群中出现的频率很高。这些变体显示出局部适应的迹象,因为它们往往特别出现在适应人为环境的驯化品系中。我们的研究结果支持这样一种观点,即虽然常见变异通常是中性的,但也有相当一部分具有适应性功能后果,并通过局部正向选择进入种群。这项研究凸显了在实验室中通过定量适存度测量在基因组尺度上探索天然遗传变异的功能效应的潜力,从而在群体遗传学和功能基因组学之间架起一座桥梁,以了解野生动物的进化动态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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