端粒 3'突出端来源于 Exo1 和 Apollo 的酶切，并用 POT1b 相关的 CST 进行填补。

Telomeric 3' overhangs derive from resection by Exo1 and Apollo and fill-in by POT1b-associated CST.

机构信息

Laboratory for Cell Biology and Genetics, The Rockefeller University, 1230 York Avenue, New York, NY 10065, USA.

出版信息

Cell. 2012 Jul 6;150(1):39-52. doi: 10.1016/j.cell.2012.05.026. Epub 2012 Jun 28.

DOI:10.1016/j.cell.2012.05.026

PMID:22748632

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3392515/

Abstract

A 3' overhang is critical for the protection and maintenance of mammalian telomeres, but its synthesis must be regulated to avoid excessive resection of the 5' end, which could cause telomere shortening. How this balance is achieved in mammals has not been resolved. Here, we determine the mechanism for 3' overhang synthesis in mouse cells by evaluating changes in telomeric overhangs throughout the cell cycle and at leading- and lagging-end telomeres. Apollo, a nuclease bound to the shelterin subunit TRF2, initiates formation of the 3' overhang at leading-, but not lagging-end telomeres. Hyperresection by Apollo is blocked at both ends by the shelterin protein POT1b. Exo1 extensively resects both telomere ends, generating transient long 3' overhangs in S/G2. CST/AAF, a DNA polα.primase accessory factor, binds POT1b and shortens the extended overhangs produced by Exo1, likely through fill-in synthesis. 3' overhang formation is thus a multistep, shelterin-controlled process, ensuring functional telomeric overhangs at chromosome ends.

摘要

3'端突出对于保护和维持哺乳动物端粒至关重要，但为了避免 5'端的过度切除，从而导致端粒缩短，其合成必须受到调控。这种平衡是如何在哺乳动物中实现的，目前尚未解决。在这里，我们通过评估整个细胞周期和端粒末端的端粒突出变化，来确定小鼠细胞中 3'端突出合成的机制。与庇护蛋白 TRF2 结合的核酸酶 Apollo 在端粒末端起始 3'端突出的形成，但在滞后端不起作用。Apollo 的超切割在两端都被庇护蛋白 POT1b 阻断。外切核酸酶 Exo1 广泛地切除两个端粒末端，在 S/G2 期产生短暂的长 3'端突出。CST/AAF，一种 DNA 聚合酶α.引发酶辅助因子，与 POT1b 结合，并缩短由 Exo1 产生的延伸突出物，可能通过填充合成来实现。因此，3'端突出的形成是一个多步骤的、受庇护蛋白控制的过程，确保了染色体末端功能性的端粒突出物。

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EMBO J. 2010 Sep 1;29(17):2864-74. doi: 10.1038/emboj.2010.165. Epub 2010 Jul 20.

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