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线虫 him-19 基因突变导致减数分裂缺陷,且随年龄增长而恶化。

Mutations in Caenorhabditis elegans him-19 show meiotic defects that worsen with age.

机构信息

Department of Chromosome Biology, Max F. Perutz Laboratories, University of Vienna, A-1030 Vienna, Austria.

出版信息

Mol Biol Cell. 2010 Mar 15;21(6):885-96. doi: 10.1091/mbc.e09-09-0811. Epub 2010 Jan 13.

DOI:10.1091/mbc.e09-09-0811
PMID:20071466
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2836969/
Abstract

From a screen for meiotic Caenorhabditis elegans mutants based on high incidence of males, we identified a novel gene, him-19, with multiple functions in prophase of meiosis I. Mutant him-19(jf6) animals show a reduction in pairing of homologous chromosomes and subsequent bivalent formation. Consistently, synaptonemal complex formation is spatially restricted and possibly involves nonhomologous chromosomes. Also, foci of the recombination protein RAD-51 occur delayed or cease altogether. Ultimately, mutation of him-19 leads to chromosome missegregation and reduced offspring viability. The observed defects suggest that HIM-19 is important for both homology recognition and formation of meiotic DNA double-strand breaks. It therefore seems to be engaged in an early meiotic event, resembling in this respect the regulator kinase CHK-2. Most astonishingly, him-19(jf6) hermaphrodites display worsening of phenotypes with increasing age, whereas defects are more severe in female than in male meiosis. This finding is consistent with depletion of a him-19-dependent factor during the production of oocytes. Further characterization of him-19 could contribute to our understanding of age-dependent meiotic defects in humans.

摘要

我们从一个基于雄性高发生率的有丝分裂 Caenorhabditis elegans 突变体筛选中发现了一个新基因 him-19,它在减数分裂 I 前期具有多种功能。突变体 him-19(jf6)动物表现出同源染色体配对减少,随后二价体形成减少。一致地,联会复合体的形成受到空间限制,并且可能涉及非同源染色体。此外,重组蛋白 RAD-51 的焦点出现延迟或完全停止。最终,him-19 的突变导致染色体错误分离和后代活力降低。观察到的缺陷表明 HIM-19 对于同源性识别和减数分裂 DNA 双链断裂的形成都很重要。因此,它似乎参与了早期减数分裂事件,在这方面类似于调节激酶 CHK-2。最令人惊讶的是,him-19(jf6)雌雄同体随着年龄的增长表型恶化,而雌性减数分裂的缺陷比雄性更严重。这一发现与卵母细胞生成过程中依赖 him-19 的因子耗竭一致。进一步表征 him-19 可能有助于我们理解人类中与年龄相关的减数分裂缺陷。

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