论文
论文题目: Dual Roles of TRF1 in Tethering Telomeres to the Nuclear Envelope and Protecting Them from Fusion During Meiosis
论文题目英文:
作者: 王丽娜①,#涂兆伟①,刘超①,#Hong-Bin Liu,#Philipp Kaldis,#陈子江*,李卫*
论文出处:
年: 2018
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期: DOI: 10.1038/s41418-017-0037-8
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联系作者: #陈子江,李卫
发表期刊: Cell Death and Differentiation
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论文连接 https://www.nature.com/articles/s41418-017-0037-8
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摘要: Telomeres integrity is indispensable for chromosomal stability by preventing chromosome erosion and end-to-end fusions. During meiosis, telomeres attach to the inner nuclear envelope and cluster into a highly crowded microenvironment at the bouquet stage, which requires specific mechanisms to protect the telomeres from fusion. Here, we demonstrate that germ cell-specific knockout of a shelterin complex subunit, Trf1, results in arrest of spermatocytes at two different stages. The obliterated telomere-nuclear envelope attachment in Trf1-deficient spermatocytes impairs homologue synapsis and recombination, resulting in a pachytene-like arrest, while the meiotic division arrest might stem from chromosome end-to-end fusion due to the failure of recruiting meiosis specific telomere associated proteins. Further investigations uncovered that TRF1 could directly interact with Speedy A, and Speedy A might work as a scaffold protein to further recruit Cdk2, thus protecting telomeres from fusion at this stage. Together, our results reveal a novel mechanism of TRF1, Speedy A, and Cdk2 in protecting telomere from fusion in a highly crowded microenvironment during meiosis.
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