Positive selection alone is sufficient for whole genome differentiation at the early stage of speciation process in the fall armyworm.

IF 3.4 Q1 Agricultural and Biological Sciences
Kiwoong Nam, Sandra Nhim, Stéphanie Robin, Anthony Bretaudeau, Nicolas Nègre, Emmanuelle d'Alençon
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Abstract

Background: The process of speciation involves differentiation of whole genome sequences between a pair of diverging taxa. In the absence of a geographic barrier and in the presence of gene flow, genomic differentiation may occur when the homogenizing effect of recombination is overcome across the whole genome. The fall armyworm is observed as two sympatric strains with different host-plant preferences across the entire habitat. These two strains exhibit a very low level of genetic differentiation across the whole genome, suggesting that genomic differentiation occurred at an early stage of speciation. In this study, we aim at identifying critical evolutionary forces responsible for genomic differentiation in the fall armyworm.

Results: These two strains exhibit a low level of genomic differentiation (FST = 0.0174), while 99.2% of 200 kb windows have genetically differentiated sequences (FST > 0). We found that the combined effect of mild positive selection and genetic linkage to selectively targeted loci are responsible for the genomic differentiation. However, a single event of very strong positive selection appears not to be responsible for genomic differentiation. The contribution of chromosomal inversions or tight genetic linkage among positively selected loci causing reproductive barriers is not supported by our data. Phylogenetic analysis shows that the genomic differentiation occurred by sub-setting of genetic variants in one strain from the other.

Conclusions: From these results, we concluded that genomic differentiation may occur at the early stage of a speciation process in the fall armyworm and that mild positive selection targeting many loci alone is sufficient evolutionary force for generating the pattern of genomic differentiation. This genomic differentiation may provide a condition for accelerated genomic differentiation by synergistic effects among linkage disequilibrium generated by following events of positive selection. Our study highlights genomic differentiation as a key evolutionary factor connecting positive selection to divergent selection.

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在秋刺吸虫物种分化的早期阶段,仅靠正选择就足以实现全基因组分化。
背景:物种分化过程涉及一对分化类群之间全基因组序列的分化。在没有地理障碍和存在基因流的情况下,当重组的同质化效应在整个基因组中被克服时,基因组分化就可能发生。在整个栖息地中,可以观察到两种对寄主植物具有不同偏好的同域品系。这两个品系在整个基因组中的遗传分化程度很低,表明基因组分化发生在物种分化的早期阶段。在这项研究中,我们的目标是找出导致秋军虫基因组分化的关键进化力量:这两个品系表现出较低的基因组分化水平(FST = 0.0174),而 99.2% 的 200 kb 窗口具有基因分化序列(FST > 0)。我们发现,基因组分化是由温和的正选择和选择性目标位点的遗传连锁共同作用造成的。然而,单个非常强的正选择事件似乎并不是基因组分化的原因。我们的数据不支持染色体倒位或正选择位点间紧密的遗传连锁导致生殖障碍的说法。系统发育分析表明,基因组分化是通过一个品系中的基因变异子集与另一个品系中的基因变异子集发生的:从这些结果中,我们得出结论,基因组分化可能发生在秋刺吸虫物种分化过程的早期阶段,而且针对许多位点的轻度正选择就足以产生基因组分化模式的进化力量。这种基因组分化可能为加速基因组分化提供了条件,因为后续的正选择事件所产生的连锁不平衡会产生协同效应。我们的研究凸显了基因组分化是连接正向选择和分化选择的关键进化因素。
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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来源期刊
BMC Evolutionary Biology
BMC Evolutionary Biology 生物-进化生物学
CiteScore
5.80
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: BMC Evolutionary Biology is an open access, peer-reviewed journal that considers articles on all aspects of molecular and non-molecular evolution of all organisms, as well as phylogenetics and palaeontology.
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