Accurate Inference of the Polyploid Continuum using Forward-time Simulations.

IF 11 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular biology and evolution Pub Date : 2024-11-16 DOI:10.1093/molbev/msae241
Tamsen Dunn, Arun Sethuraman
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Abstract

Multiple rounds of whole-genome duplication (WGD) followed by diploidization have occurred throughout the evolutionary history of angiosperms. Much work has been done to model the genomic consequences and evolutionary significance of WGD. While researchers have historically modeled polyploids as either allopolyploids or autopolyploids, the variety of natural polyploids span a continuum of differentiation across multiple parameters, such as the extent of polysomic vs. disomic inheritance, and the degree of genetic differentiation between the ancestral lineages. Here we present a forward-time polyploid genome evolution simulator called SpecKS. SpecKS models polyploid speciation as originating from a 2D continuum, whose dimensions account for both the level of genetic differentiation between the ancestral parental genomes, as well the time lag between ancestral speciation and their subsequent reunion in the derived polyploid. Using extensive simulations, we demonstrate that changes in initial conditions along either dimension of the 2D continuum deterministically affect the shape of the Ks histogram. Our findings indicate that the error in the common method of estimating WGD time from the Ks histogram peak scales with the degree of allopolyploidy, and we present an alternative, accurate estimation method that is independent of the degree of allopolyploidy. Lastly, we use SpecKS to derive tests that infer both the lag time between parental divergence and WGD time, and the diversity of the ancestral species, from an input Ks histogram. We apply the latter test to transcriptomic data from over 200 species across the plant kingdom, the results of which are concordant with the prevailing theory that the majority of angiosperm lineages are derived from diverse parental genomes and may be of allopolyploid origin.

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利用前向时间模拟准确推断多倍体连续体
在被子植物的进化史上,发生了多轮全基因组复制(WGD),随后是二倍体化。为了模拟 WGD 的基因组后果和进化意义,人们做了大量工作。虽然研究人员历来将多倍体建模为全多倍体或自多倍体,但天然多倍体的多样性跨越了多参数分化的连续统一体,例如多体遗传与非多体遗传的程度,以及祖先品系之间的遗传分化程度。在此,我们介绍一种名为 SpecKS 的前向时间多倍体基因组进化模拟器。SpecKS 将多倍体物种演化模拟为源自二维连续体,其维度既考虑了祖先亲代基因组之间的遗传分化程度,也考虑了祖先物种演化与随后在衍生多倍体中重新组合之间的时滞。通过大量模拟,我们证明了二维连续体任一维度上初始条件的变化都会对 Ks 直方图的形状产生决定性影响。我们的研究结果表明,根据 Ks 直方图峰值估算 WGD 时间的常用方法的误差会随着异源多倍体程度的增加而增加,因此我们提出了一种与异源多倍体程度无关的替代性精确估算方法。最后,我们利用 SpecKS 得出了一些检验方法,这些方法可以从输入的 Ks 直方图中推断出亲本分化与 WGD 时间之间的滞后时间以及祖先物种的多样性。我们将后一种检验方法应用于植物界 200 多个物种的转录组数据,其结果与目前流行的理论相一致,即大多数被子植物品系来自不同的亲本基因组,可能起源于异源多倍体。
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来源期刊
Molecular biology and evolution
Molecular biology and evolution 生物-进化生物学
CiteScore
19.70
自引率
3.70%
发文量
257
审稿时长
1 months
期刊介绍: Molecular Biology and Evolution Journal Overview: Publishes research at the interface of molecular (including genomics) and evolutionary biology Considers manuscripts containing patterns, processes, and predictions at all levels of organization: population, taxonomic, functional, and phenotypic Interested in fundamental discoveries, new and improved methods, resources, technologies, and theories advancing evolutionary research Publishes balanced reviews of recent developments in genome evolution and forward-looking perspectives suggesting future directions in molecular evolution applications.
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