昆虫的性染色体进化。

Sex chromosome evolution in moths and butterflies.

机构信息

Laboratory of Applied Molecular Entomology, Research Faculty of Agriculture, Hokkaido University, Kita-ku, Sapporo, Japan.

出版信息

Chromosome Res. 2012 Jan;20(1):83-94. doi: 10.1007/s10577-011-9262-z.

DOI:10.1007/s10577-011-9262-z

PMID:22187366

Abstract

Lepidoptera, i.e. moths and butterflies, have a female heterogametic sex chromosome system, with most females having a WZ constitution while males are ZZ. Besides this predominant WZ/ZZ system, Z/ZZ, WZ(1)Z(2)/Z(1)Z(1)Z(2)Z(2) and W(1)W(2)Z/ZZ systems also occur. Sex is determined by an unknown W-linked gene or genes in Bombyx mori, but by dosage-dependent and equally unknown Z-linked genes in all Z/ZZ species. The female heterogametic sex chromosome system has been conserved for at least 180 MY in the phylogenetic branch that combines Lepidoptera and Trichoptera. The W chromosome, which is present in most lepidopteran species, was incorporated in the sex chromosome system much later, about 90-100 MY ago. The Z chromosomes are highly conserved among Lepidoptera, much like the Z in birds or the X in mammals. The W, on the other hand, is evolving rapidly. It is crammed with repetitive elements which appear to have a high turnover rate but poor in or even devoid of protein-coding genes. It has frequently undergone fusion with autosomes or sporadically lost altogether.

摘要

鳞翅目，即蛾类和蝴蝶，具有雌性异配性别的性染色体系统，大多数雌性具有 WZ 组成，而雄性是 ZZ。除了这种主要的 WZ/ZZ 系统外，还存在 Z/ZZ、WZ(1)Z(2)/Z(1)Z(1)Z(2)Z(2)和 W(1)W(2)Z/ZZ 系统。在鳞翅目和毛翅目合并的进化分支中，性别的决定由未知的 W 连锁基因或基因在 B. mori 中决定，但在所有 Z/ZZ 物种中由剂量依赖且未知的 Z 连锁基因决定。雌性异配性别的性染色体系统在结合鳞翅目和毛翅目的进化分支中至少保守了 1.8 亿年。W 染色体存在于大多数鳞翅目物种中，它是在大约 90-100 百万年前，即后来才被纳入性染色体系统的。Z 染色体在鳞翅目中高度保守，就像鸟类的 Z 染色体或哺乳动物的 X 染色体一样。另一方面，W 染色体则迅速进化。它充满了重复元件，这些重复元件似乎具有高周转率，但缺乏或几乎没有蛋白质编码基因。它经常与常染色体融合或偶尔完全丢失。

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昆虫的性染色体进化。

Sex chromosome evolution in moths and butterflies.

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