寄主-植物适应作为秋粘虫(Spodoptera frugiperda)早期物种形成的驱动因素。

Estelle Fiteni, Karine Durand, Sylvie Gimenez, Robert L Meagher, Fabrice Legeai, Gael J Kergoat, Nicolas Nègre, Emmanuelle d'Alençon, Kiwoong Nam
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引用次数: 5

摘要

背景:寄主植物的分化选择是推动植食性昆虫生态物种形成的主要进化力量之一。在基因流和选型交配的存在下,生态物种形成可能具有挑战性,因为在生态选择(通过寄主-植物适应)和选型交配之间,分化的方向不一定相同。秋粘虫(FAW)是鳞翅目的一种主要害虫,由两种同域菌株——玉米和水稻菌株组成,以它们喜欢的两种寄主植物命名。这两种菌株被假设经历了早期的物种形成,基于(i)包括合子前和合子后生殖分离的几条证据,以及(ii)存在相当水平的遗传分化。尽管这两种菌株的地位早已确立,但从大量的基因组位点来看,这两种菌株是否确实表现出显著的遗传分化水平仍有待发现。在这里,我们分析了56个FAW个体的全基因组序列,这些个体要么来自牧草(水稻菌株的有利寄主范围的一部分),要么来自玉米,以评估寄主-植物适应在早期物种形成中的作用。结果:全基因组数据的主成分分析表明,秋粘虫的分化模式主要由寄主植物相关的遗传分化来解释。玉米和水稻品系之间的遗传分化水平在Z染色体上尤为显著。我们分别鉴定了水稻品系和玉米品系的1个常染色体位点和2个Z染色体位点。常染色体位点的DXY和FST均升高,而Z染色体位点的DXY和FST均降低。结论:FAW群体结构以玉米和水稻品系间的遗传分化为主。这种分化涉及针对至少三个位点的不同选择,其中包括一个可能导致生殖隔离的位点。综上所述,这些结果表明寄主-植物物种形成是秋粘虫早期物种形成的驱动因素。
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Host-plant adaptation as a driver of incipient speciation in the fall armyworm (Spodoptera frugiperda).

Background: Divergent selection on host-plants is one of the main evolutionary forces driving ecological speciation in phytophagous insects. The ecological speciation might be challenging in the presence of gene flow and assortative mating because the direction of divergence is not necessarily the same between ecological selection (through host-plant adaptation) and assortative mating. The fall armyworm (FAW), a major lepidopteran pest species, is composed of two sympatric strains, corn and rice strains, named after two of their preferred host-plants. These two strains have been hypothesized to undergo incipient speciation, based on (i) several lines of evidence encompassing both pre- and post-zygotic reproductive isolation, and (ii) the presence of a substantial level of genetic differentiation. Even though the status of these two strains has been established a long time ago, it is still yet to be found whether these two strains indeed exhibit a marked level of genetic differentiation from a large number of genomic loci. Here, we analyzed whole genome sequences from 56 FAW individuals either collected from pasture grasses (a part of the favored host range of the rice strain) or corn to assess the role of host-plant adaptation in incipient speciation.

Results: Principal component analysis of whole genome data shows that the pattern of divergence in the fall armyworm is predominantly explained by the genetic differentiation associated with host-plants. The level of genetic differentiation between corn and rice strains is particularly marked in the Z chromosome. We identified one autosomal locus and two Z chromosome loci targeted by selective sweeps specific to rice strain and corn strain, respectively. The autosomal locus has both increased DXY and FST while the Z chromosome loci had decreased DXY and increased FST.

Conclusion: These results show that the FAW population structure is dominated by the genetic differentiation between corn and rice strains. This differentiation involves divergent selection targeting at least three loci, which include a locus potentially causing reproductive isolation. Taken together, these results suggest the evolutionary scenario that host-plant speciation is a driver of incipient speciation in the fall armyworm.

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