勒氏管回归的基因调控网络。

IF 4.8 Q1 GENETICS & HEREDITY Environmental Epigenetics Pub Date : 2019-07-01 DOI:10.1093/eep/dvz017
Malcolm M Moses, Richard R Behringer
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引用次数: 13

摘要

哺乳动物胚胎最初发育为雄性和雌性生殖道器官的祖组织,分别称为Wolffian管和mellerian管。最终,每个个体都发育出一套男性或女性生殖道器官。因此,性别分化的一个重要步骤是一个导管的回归和另一个导管的生长和分化。在男性中,这需要勒氏管退化和Wolffian管生长和分化。胎儿睾丸中编码抗勒氏管激素的Amh的表达诱导了勒氏管退化。随后,在导管上皮周围的间充质细胞中,受体介导的信号转导导致导管消除。诱导Amh转录的基因和Amh活性产生的下游信号传导形成一条通路。然而,这一途径的分子细节目前尚不清楚。已经确定了AMH通路功能的一组必需基因。最近,在退化的初始阶段,对雄性和雌性马勒氏管间质的转录组分析已经确定了可能介导马勒氏系统消除的新基因。这些证据一起可以用来产生一个初始的基因调控网络,描述Amh途径的勒氏管回归。Amh基因调控网络将为研究勒氏管回归、性别分化及其与环境影响的关系提供有用的工具。
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A gene regulatory network for Müllerian duct regression.

Mammalian embryos initially develop progenitor tissues for both male and female reproductive tract organs, known as the Wolffian ducts and the Müllerian ducts, respectively. Ultimately, each individual develops a single set of male or female reproductive tract organs. Therefore, an essential step for sex differentiation is the regression of one duct and growth and differentiation of the other duct. In males, this requires Müllerian duct regression and Wolffian duct growth and differentiation. Müllerian duct regression is induced by the expression of Amh, encoding anti-Müllerian hormone, from the fetal testes. Subsequently, receptor-mediated signal transduction in mesenchymal cells surrounding the Müllerian duct epithelium leads to duct elimination. The genes that induce Amh transcription and the downstream signaling that results from Amh activity form a pathway. However, the molecular details of this pathway are currently unknown. A set of essential genes for AMH pathway function has been identified. More recently, transcriptome analysis of male and female Müllerian duct mesenchyme at an initial stage of regression has identified new genes that may mediate elimination of the Müllerian system. The evidence taken together can be used to generate an initial gene regulatory network describing the Amh pathway for Müllerian duct regression. An Amh gene regulatory network will be a useful tool to study Müllerian duct regression, sex differentiation, and its relationship to environmental influences.

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来源期刊
Environmental Epigenetics
Environmental Epigenetics GENETICS & HEREDITY-
CiteScore
6.50
自引率
5.30%
发文量
0
审稿时长
17 weeks
期刊最新文献
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