新热带蝴蝶染色体倒位的双重博弈。

Pub Date : 2022-05-11 DOI:10.5802/crbiol.73
Paul Jay, Mathieu Joron
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引用次数: 0

摘要

在首次描述由超基因控制的多态性一个多世纪后,这些遗传结构仍然困扰着生物学家。超基因是一组紧密相连的基因座,促进了等位基因组合的共分离,这些等位基因组合存在于不同的、复杂的适应策略中。超基因重组的抑制通常是由多态染色体重排引起的,如倒位。反转多态性和超基因的存在提出了理论和实证问题。为什么这些架构会发展?等位基因的替代组合是如何形成的?如何以及为什么维护多态性?本文的目的是通过回顾最近对亚马逊河蝴蝶的研究进展来回答这些问题,这种蝴蝶的翅膀颜色图案具有惊人的多样性。在广泛的背景下,这篇综述强调了在新基因组结构的进化和物种适应中发挥重要作用的机制。
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The double game of chromosomal inversions in a neotropical butterfly.

Over a century after the first description of a polymorphism controlled by a supergene, these genetic architectures still puzzle biologists. Supergenes are groups of tightly linked loci facilitating the co-segregation of combinations of alleles underlying alternative, complex adaptive strategies. The suppression of recombination at supergenes is generally caused by polymorphic chromosomal rearrangements, such as inversions. The existence of inversion polymorphisms and supergene raises theoretical and empirical questions. Why do these architectures evolve? How can alternative combinations of alleles be formed? How and why is polymorphism maintained? The purpose of this paper is to provide answers to these questions by reviewing recent advances in the study of Heliconius numata, an Amazonian butterfly displaying a striking diversity of wing color patterns. In a broad context, this review highlights mechanisms that play an important role in the evolution of new genomic architecture and in the adaptation of species.

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