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鼠类胞嘧啶-5 RNA 甲基转移酶 NSun2 是染色质小体的组成部分,对于睾丸分化是必需的。

The mouse cytosine-5 RNA methyltransferase NSun2 is a component of the chromatoid body and required for testis differentiation.

机构信息

Wellcome Trust-Medical Research Council Stem Cell Institute, University of Cambridge, Cambridge, United Kingdom.

出版信息

Mol Cell Biol. 2013 Apr;33(8):1561-70. doi: 10.1128/MCB.01523-12. Epub 2013 Feb 11.

DOI:10.1128/MCB.01523-12
PMID:23401851
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3624257/
Abstract

Posttranscriptional regulatory mechanisms are crucial for protein synthesis during spermatogenesis and are often organized by the chromatoid body. Here, we identify the RNA methyltransferase NSun2 as a novel component of the chromatoid body and, further, show that NSun2 is essential for germ cell differentiation in the mouse testis. In NSun2-depleted testes, genes encoding Ddx4, Miwi, and Tudor domain-containing (Tdr) proteins are repressed, indicating that RNA-processing and posttranscriptional pathways are impaired. Loss of NSun2 specifically blocked meiotic progression of germ cells into the pachytene stage, as spermatogonial and Sertoli cells were unaffected in knockout mice. We observed the same phenotype when we simultaneously deleted NSun2 and Dnmt2, the only other cytosine-5 RNA methyltransferase characterized to date, indicating that Dnmt2 was not functionally redundant with NSun2 in spermatogonial stem cells or Sertoli cells. Specific NSun2- and Dnmt2-methylated tRNAs decreased in abundance when both methyltransferases were deleted, suggesting that RNA methylation pathways play an essential role in male germ cell differentiation.

摘要

转录后调控机制对于精子发生过程中的蛋白质合成至关重要,通常由染色质体组织。在这里,我们确定 RNA 甲基转移酶 NSun2 为染色质体的一个新组成部分,并进一步表明 NSun2 对于小鼠睾丸中的生殖细胞分化是必需的。在 NSun2 耗尽的睾丸中,编码 Ddx4、Miwi 和 Tudor 结构域蛋白的基因受到抑制,表明 RNA 处理和转录后途径受损。NSun2 的缺失特异性地阻止了生殖细胞进入粗线期的减数分裂进程,因为精原细胞和支持细胞在敲除小鼠中未受影响。当我们同时缺失 NSun2 和 Dnmt2 时,我们观察到了相同的表型,Dnmt2 是迄今为止唯一被描述的胞嘧啶-5 RNA 甲基转移酶,这表明 Dnmt2 在精原干细胞或支持细胞中与 NSun2 没有功能冗余。当缺失两种甲基转移酶时,特异性的 NSun2 和 Dnmt2 甲基化 tRNA 的丰度降低,这表明 RNA 甲基化途径在雄性生殖细胞分化中起着至关重要的作用。

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本文引用的文献

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