Epigenetic and genetic variation between two behaviorally isolated species of Neoconocephalus (Orthoptera: Tettigonioidea)

IF 1 Q3 ENTOMOLOGY
G. Ney, J. Schul
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引用次数: 3

Abstract

Epigenetic variation allows for rapid changes in phenotypes without alterations to nucleotide sequences. These epigenetic signatures may diverge over time among isolated populations. Epigenetic incompatibility following secondary contact between these populations could result in the evolution of reproductive isolating mechanisms. If epigenetic incompatibility drove the evolution of species isolating mechanisms, we expect to see significant epigenetic differentiation between these species. Alternatively, epigenetic variation could be the result of predominantly environmental variables and not align along species boundaries. A methylation sensitive amplified fragment length polymorphism analysis was performed on individuals of the closely related katydid species Neoconocephalusrobustus and N.bivocatus. We observed significant variation in total methylation levels between species. However, genetic differentiation remained larger than epigenetic differentiation between species groups. We measured a significant correlation between the epigenetic and genetic distance between individuals. Epigenetic differentiation is therefore likely the result of an interaction between genetic and epigenetic loci and not a mechanism for species differentiation. We therefore did not find evidence to support our hypothesis of an epigenetically mediated mechanism for speciation between N.robustus and N.bivocatus.
两个行为分离的新头蝇种的表观遗传和遗传变异(直翅目:头蝇总科)
表观遗传变异允许表型的快速变化而不改变核苷酸序列。这些表观遗传学特征可能会随着时间的推移在孤立的群体中产生差异。这些种群之间二次接触后的表观遗传不相容可能导致生殖隔离机制的进化。如果表观遗传不相容性推动了物种隔离机制的进化,我们预计这些物种之间会出现显著的表观遗传分化。或者,表观遗传变异可能主要是环境变量的结果,而不是沿着物种边界排列。采用甲基化敏感的扩增片段长度多态性分析方法,对亲缘关系密切的katydid物种Neoconocephalusrobustus和N.bivocatus的个体进行了分析。我们观察到物种之间总甲基化水平的显著差异。然而,物种群之间的遗传分化仍然大于表观遗传分化。我们测量了个体之间表观遗传距离和遗传距离之间的显著相关性。因此,表观遗传分化可能是遗传基因座和表观遗传基因座之间相互作用的结果,而不是物种分化的机制。因此,我们没有找到证据支持我们的假设,即粗壮N.robustus和双叉N.bivocatus之间物种形成的表观遗传学介导机制。
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来源期刊
Journal of Orthoptera Research
Journal of Orthoptera Research Agricultural and Biological Sciences-Insect Science
CiteScore
1.90
自引率
25.00%
发文量
20
审稿时长
12 weeks
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