甲壳动物能告诉我们昆虫翅膀和其他形态新颖结构的进化情况。

What crustaceans can tell us about the evolution of insect wings and other morphologically novel structures.

机构信息

Miami University, Pearson Hall, 700E High St., Oxford, OH 45056, USA.

出版信息

Curr Opin Genet Dev. 2021 Aug;69:48-55. doi: 10.1016/j.gde.2021.02.008. Epub 2021 Feb 26.

DOI:10.1016/j.gde.2021.02.008

Abstract

Acquisition of novel structures often has a profound impact on the adaptation of organisms. The wing of insects is one such example, facilitating their massive success and enabling them to become the dominant clade on this planet. However, its evolutionary origin as well as the mechanisms underpinning its evolution remain elusive. Studies in crustaceans, a wingless sister group of insects, have played a pivotal role in the wing origin debate. Three recent investigations into the genes related to insect wings and legs in crustaceans provided intriguing insights into how and where insect wings evolved. Interestingly, each study proposes a distinct mechanism as a key process underlying insect wing evolution. Here, I discuss what we can learn about the evolution of insect wings and morphological novelty in general by synthesizing the outcomes of these studies.

摘要

新结构的获得常常对生物的适应有深远的影响。昆虫的翅膀就是这样一个例子，它使昆虫获得了巨大的成功，并使它们成为这个星球上的主要生物类群。然而，它的进化起源以及支撑其进化的机制仍然难以捉摸。甲壳动物的研究在昆虫翅膀起源的争论中发挥了关键作用，甲壳动物是昆虫的无翅姊妹群。最近对与昆虫翅膀和腿有关的基因在甲壳动物中的研究，为昆虫翅膀的进化方式和进化地点提供了有趣的见解。有趣的是，每项研究都提出了一个不同的机制，作为昆虫翅膀进化的关键过程。在这里，我通过综合这些研究的结果，讨论了我们可以从这些研究中学到的关于昆虫翅膀进化和形态新颖性的一般知识。

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甲壳动物能告诉我们昆虫翅膀和其他形态新颖结构的进化情况。

What crustaceans can tell us about the evolution of insect wings and other morphologically novel structures.

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