分析精子表观基因组：在早期胚胎发生和辅助生殖中的作用。

Analysing the sperm epigenome: roles in early embryogenesis and assisted reproduction.

机构信息

Justus Liebig University, Department of Urology, Pediatric Urology and Andrology, Section Molecular Andrology, Giessen, Germany.

出版信息

Nat Rev Urol. 2012 Nov;9(11):609-19. doi: 10.1038/nrurol.2012.183. Epub 2012 Oct 9.

DOI:10.1038/nrurol.2012.183

PMID:23045264

Abstract

An understanding of the epigenetic mechanisms involved in sperm production and their impact on the differentiating embryo is essential if we are to optimize fertilization and assisted reproduction techniques in the future. Male germ cells are unique in terms of size, robustness, and chromatin structure, which is highly condensed owing to the replacement of most histones by protamines. Analysis of sperm epigenetics requires specific techniques that enable the isolation of high quality chromatin and associated nucleic acids. Histone modification, DNA methylation and noncoding RNAs have important, but so far underestimated, roles in the production of fertile sperm. Aberrations in these epigenetic processes have detrimental consequences for both early embryo development and assisted reproductive technology. Emerging computational techniques are likely to improve our understanding of chromatin dynamics in the future.

摘要

如果我们要优化未来的受精和辅助生殖技术，那么了解精子发生过程中的表观遗传机制及其对分化胚胎的影响至关重要。从大小、坚固性和染色质结构来看，精子细胞是独特的，由于大多数组蛋白被鱼精蛋白取代，染色质高度浓缩。精子表观遗传学的分析需要特定的技术，这些技术能够分离高质量的染色质和相关的核酸。组蛋白修饰、DNA 甲基化和非编码 RNA 在产生有活力的精子方面起着重要但迄今被低估的作用。这些表观遗传过程的异常对早期胚胎发育和辅助生殖技术都有不利影响。新兴的计算技术可能会提高我们对未来染色质动力学的理解。

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分析精子表观基因组：在早期胚胎发生和辅助生殖中的作用。

Analysing the sperm epigenome: roles in early embryogenesis and assisted reproduction.

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