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一项针对调控果蝇卵母细胞极性基因的母体筛选揭示了减数分裂进程中的新步骤。

A maternal screen for genes regulating Drosophila oocyte polarity uncovers new steps in meiotic progression.

作者信息

Barbosa Vitor, Kimm Naomi, Lehmann Ruth

机构信息

Howard Hughes Medical Institute and the Kimmel Center for Biology and Medicine, Skirball Institute, 540 First Avenue, New York, NY 10016, USA.

出版信息

Genetics. 2007 Aug;176(4):1967-77. doi: 10.1534/genetics.106.069575. Epub 2007 May 16.

DOI:10.1534/genetics.106.069575
PMID:17507684
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1950606/
Abstract

Meiotic checkpoints monitor chromosome status to ensure correct homologous recombination, genomic integrity, and chromosome segregation. In Drosophila, the persistent presence of double-strand DNA breaks (DSB) activates the ATR/Mei-41 checkpoint, delays progression through meiosis, and causes defects in DNA condensation of the oocyte nucleus, the karyosome. Checkpoint activation has also been linked to decreased levels of the TGFalpha-like molecule Gurken, which controls normal eggshell patterning. We used this easy-to-score eggshell phenotype in a germ-line mosaic screen in Drosophila to identify new genes affecting meiotic progression, DNA condensation, and Gurken signaling. One hundred eighteen new ventralizing mutants on the second chromosome fell into 17 complementation groups. Here we describe the analysis of 8 complementation groups, including Kinesin heavy chain, the SR protein kinase cuaba, the cohesin-related gene dPds5/cohiba, and the Tudor-domain gene montecristo. Our findings challenge the hypothesis that checkpoint activation upon persistent DSBs is exclusively mediated by ATR/Mei-41 kinase and instead reveal a more complex network of interactions that link DSB formation, checkpoint activation, meiotic delay, DNA condensation, and Gurken protein synthesis.

摘要

减数分裂检查点监测染色体状态,以确保正确的同源重组、基因组完整性和染色体分离。在果蝇中,双链DNA断裂(DSB)的持续存在会激活ATR/Mei-41检查点,延迟减数分裂进程,并导致卵母细胞核(染色质核仁)的DNA凝聚出现缺陷。检查点激活还与TGFα样分子Gurken水平降低有关,Gurken控制正常的卵壳图案形成。我们在果蝇的种系镶嵌筛选中利用这种易于评分的卵壳表型,来鉴定影响减数分裂进程、DNA凝聚和Gurken信号传导的新基因。位于第二条染色体上的118个新的腹化突变体分为17个互补群。在此,我们描述了对8个互补群的分析,包括驱动蛋白重链、SR蛋白激酶cuaba、黏连蛋白相关基因dPds5/cohiba和Tudor结构域基因montecristo。我们的发现挑战了持续DSB时检查点激活仅由ATR/Mei-41激酶介导的假说,相反,揭示了一个更复杂的相互作用网络,该网络将DSB形成、检查点激活、减数分裂延迟、DNA凝聚和Gurken蛋白合成联系起来。

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