患有19号染色体部分三体的人类女性胚胎丢失，确定了对单一活性X染色体至关重要的区域。

Embryonic loss of human females with partial trisomy 19 identifies region critical for the single active X.

作者信息

Migeon Barbara R, Beer Michael A, Bjornsson Hans T

机构信息

McKusick Nathans Institute of Genetic Medicine, Baltimore, MD, United States of America.

Department of Pediatrics, Johns Hopkins University, School of Medicine, Baltimore, MD, United States of America.

出版信息

PLoS One. 2017 Apr 12;12(4):e0170403. doi: 10.1371/journal.pone.0170403. eCollection 2017.

DOI:10.1371/journal.pone.0170403

PMID:28403217

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5389809/

Abstract

To compensate for the sex difference in the number of X chromosomes, human females, like human males have only one active X. The other X chromosomes in cells of both sexes are silenced in utero by XIST, the Inactive X Specific Transcript gene, that is present on all X chromosomes. To investigate the means by which the human active X is protected from silencing by XIST, we updated the search for a key dosage sensitive XIST repressor using new cytogenetic data with more precise resolution. Here, based on a previously unknown sex bias in copy number variations, we identify a unique region in our genome, and propose candidate genes that lie within, as they could inactivate XIST. Unlike males, the females who duplicate this region of chromosome 19 (partial 19 trisomy) do not survive embryogenesis; this preimplantation loss of females may be one reason that more human males are born than females.

摘要

为了补偿X染色体数量上的性别差异，人类女性与男性一样，只有一条活跃的X染色体。两性细胞中的其他X染色体在子宫内会被XIST（X染色体失活特异性转录基因）沉默，该基因存在于所有X染色体上。为了研究人类活跃X染色体免受XIST沉默的机制，我们利用分辨率更高的新细胞遗传学数据，更新了对关键剂量敏感XIST抑制因子的搜索。在此，基于此前未知的拷贝数变异性别偏差，我们在基因组中确定了一个独特区域，并提出了位于该区域内的候选基因，因为它们可能使XIST失活。与男性不同，复制19号染色体这一区域（19号染色体部分三体）的女性无法存活至胚胎发育阶段；女性在植入前的这种损失可能是男性出生人数多于女性的原因之一。

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患有19号染色体部分三体的人类女性胚胎丢失，确定了对单一活性X染色体至关重要的区域。

Embryonic loss of human females with partial trisomy 19 identifies region critical for the single active X.

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