性染色体到常染色体的转位事件可对抗哺乳动物Y染色体基因的丢失。

Sex chromosome-to-autosome transposition events counter Y-chromosome gene loss in mammals.

作者信息

Hughes Jennifer F, Skaletsky Helen, Koutseva Natalia, Pyntikova Tatyana, Page David C

机构信息

Whitehead Institute, Cambridge, MA, 02142, USA.

Howard Hughes Medical Institute, Whitehead Institute, Cambridge, MA, 02142, USA.

出版信息

Genome Biol. 2015 May 28;16(1):104. doi: 10.1186/s13059-015-0667-4.

DOI:10.1186/s13059-015-0667-4

PMID:26017895

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4446799/

Abstract

BACKGROUND

Although the mammalian X and Y chromosomes evolved from a single pair of autosomes, they are highly differentiated: the Y chromosome is dramatically smaller than the X and has lost most of its genes. The surviving genes are a specialized set with extraordinary evolutionary longevity. Most mammalian lineages have experienced delayed, or relatively recent, loss of at least one conserved Y-linked gene. An extreme example of this phenomenon is in the Japanese spiny rat, where the Y chromosome has disappeared altogether. In this species, many Y-linked genes were rescued by transposition to new genomic locations, but until our work presented here, this has been considered an isolated case.

RESULTS

We describe eight cases of genes that have relocated to autosomes in mammalian lineages where the corresponding Y-linked gene has been lost. These gene transpositions originated from either the X or Y chromosomes, and are observed in diverse mammalian lineages: occurring at least once in marsupials, apes, and cattle, and at least twice in rodents and marmoset. For two genes--EIF1AX/Y and RPS4X/Y--transposition to autosomes occurred independently in three distinct lineages.

CONCLUSIONS

Rescue of Y-linked gene loss through transposition to autosomes has previously been reported for a single isolated rodent species. However, our findings indicate that this compensatory mechanism is widespread among mammalian species. Thus, Y-linked gene loss emerges as an additional driver of gene transposition from the sex chromosomes, a phenomenon thought to be driven primarily by meiotic sex chromosome inactivation.

摘要

背景

尽管哺乳动物的X和Y染色体由一对常染色体进化而来，但它们高度分化：Y染色体比X染色体小得多，并且失去了大部分基因。存活下来的基因是一组具有非凡进化持久性的特殊基因。大多数哺乳动物谱系都经历了至少一个保守的Y连锁基因的延迟丢失或相对较新的丢失。这种现象的一个极端例子是日本刺鼠，其Y染色体已完全消失。在这个物种中，许多Y连锁基因通过转座到新的基因组位置而得以保留，但直到我们在此展示的研究之前，这一直被认为是一个孤立的案例。

结果

我们描述了8个基因在哺乳动物谱系中转座到常染色体的案例，这些谱系中相应的Y连锁基因已经丢失。这些基因转座起源于X或Y染色体，并且在不同的哺乳动物谱系中都有观察到：在有袋类动物、猿类和牛中至少发生过一次，在啮齿动物和狨猴中至少发生过两次。对于两个基因——EIF1AX/Y和RPS4X/Y——转座到常染色体在三个不同的谱系中独立发生。

结论

此前仅报道过单个孤立的啮齿动物物种通过转座到常染色体来挽救Y连锁基因丢失的情况。然而，我们的研究结果表明，这种补偿机制在哺乳动物物种中很普遍。因此，Y连锁基因丢失成为性染色体基因转座的另一个驱动因素，而这种现象以前被认为主要是由减数分裂性染色体失活驱动的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c5b9/4446799/d4e4512ccea8/13059_2015_667_Fig1_HTML.jpg

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性染色体到常染色体的转位事件可对抗哺乳动物Y染色体基因的丢失。

Sex chromosome-to-autosome transposition events counter Y-chromosome gene loss in mammals.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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