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物种形成与发育警钟。

Speciation and the developmental alarm clock.

机构信息

Department of Ecology & Evolutionary Biology, University of Toronto, Toronto, Canada.

Department of Integrative Biology, University of Wisconsin - Madison, Madison, United States.

出版信息

Elife. 2020 Sep 9;9:e56276. doi: 10.7554/eLife.56276.

DOI:10.7554/eLife.56276
PMID:32902377
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7481004/
Abstract

New species arise as the genomes of populations diverge. The developmental 'alarm clock' of speciation sounds off when sufficient divergence in genetic control of development leads hybrid individuals to infertility or inviability, the world awoken to the dawn of new species with intrinsic post-zygotic reproductive isolation. Some developmental stages will be more prone to hybrid dysfunction due to how molecular evolution interacts with the ontogenetic timing of gene expression. Considering the ontogeny of hybrid incompatibilities provides a profitable connection between 'evo-devo' and speciation genetics to better link macroevolutionary pattern, microevolutionary process, and molecular mechanisms. Here, we explore speciation alongside development, emphasizing their mutual dependence on genetic network features, fitness landscapes, and developmental system drift. We assess models for how ontogenetic timing of reproductive isolation can be predictable. Experiments and theory within this synthetic perspective can help identify new rules of speciation as well as rules in the molecular evolution of development.

摘要

新物种的出现是由于种群的基因组发生了分歧。当发育的遗传控制发生足够的分歧,导致杂种个体不育或不能存活时,物种形成的发育“闹钟”就会响起,世界就会迎来新物种的黎明,这些新物种具有内在的合子后生殖隔离。由于分子进化与基因表达的个体发生时间相互作用,一些发育阶段更容易出现杂种功能障碍。考虑杂种不兼容性的个体发生提供了“演化发育生物学”和物种形成遗传学之间的有利联系,以更好地将宏观进化模式、微观进化过程和分子机制联系起来。在这里,我们探讨了物种形成与发育之间的关系,强调了它们在遗传网络特征、适应度景观和发育系统漂移方面的相互依赖关系。我们评估了生殖隔离的个体发生时间如何具有可预测性的模型。这一综合视角内的实验和理论可以帮助确定新的物种形成规则以及发育分子进化的规则。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d317/7481004/72d683d12693/elife-56276-box1-fig1.jpg

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