一个全局表达开关标志着小鼠雄性减数分裂中粗线期的起始。

A Global Expression Switch Marks Pachytene Initiation during Mouse Male Meiosis.

机构信息

Genome Plasticity Laboratory, Department of Cancer Biology, The Scripps Research Institute, Scripps Florida, Jupiter, FL 33458, USA.

出版信息

Genes (Basel). 2010 Dec 13;1(3):469-83. doi: 10.3390/genes1030469.

DOI:10.3390/genes1030469

PMID:24710097

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3966219/

Abstract

Male spermatogenesis is an essential and complex process necessary to gain totipotency and allow a whole new organism to develop upon fertilization. While single-gene based studies have provided insights into the mechanisms underlying spermatogenesis, detailed global profiling of all the key meiotic stages is required to fully define these processes. Here, by isolating highly enriched mouse meiotic cell populations, we have generated a comprehensive gene expression atlas of mammalian meiosis. Our data define unique signatures for the specific stages of meiosis, including global chromosome X inactivation and reactivation. The data also reveal profound switches in global gene expression at the initiation of pachynema that are reminiscent of the commitment to meiosis observed in budding yeast. Overall, this meiotic atlas provides an exhaustive blueprint and resource for mammalian gametogenesis and meiosis.

摘要

男性精子发生是一个必要且复杂的过程，它是获得全能性并允许在受精后发育出全新生物体所必需的。虽然基于单基因的研究为精子发生的机制提供了深入的了解，但详细的全局分析所有关键的减数分裂阶段对于全面定义这些过程是必需的。在这里，通过分离高度富集的小鼠减数分裂细胞群体，我们生成了哺乳动物减数分裂的综合基因表达图谱。我们的数据为减数分裂的特定阶段定义了独特的特征，包括全局性的 X 染色体失活和再激活。这些数据还揭示了在早熟凝集起始时全局基因表达的深刻转变，这让人联想到在芽殖酵母中观察到的向减数分裂的承诺。总的来说，这个减数分裂图谱为哺乳动物配子发生和减数分裂提供了详尽的蓝图和资源。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c2ef/3966219/50c3f4696f6d/genes-01-00469-g001.jpg

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一个全局表达开关标志着小鼠雄性减数分裂中粗线期的起始。

A Global Expression Switch Marks Pachytene Initiation during Mouse Male Meiosis.

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