端粒结合蛋白 2 结合分枝 DNA 以保护端粒的完整性。

TRF2 binds branched DNA to safeguard telomere integrity.

机构信息

Laboratory for Cell Biology and Genetics, The Rockefeller University, New York, New York, USA.

Structural Biology Program, Memorial Sloan-Kettering Cancer Center, New York, New York, USA.

出版信息

Nat Struct Mol Biol. 2017 Sep;24(9):734-742. doi: 10.1038/nsmb.3451. Epub 2017 Aug 14.

DOI:10.1038/nsmb.3451

PMID:28805810

Abstract

Although t-loops protect telomeres, they are at risk of cleavage by Holliday junction (HJ) resolvases if branch migration converts the three-way t-loop junction into four-way HJs. T-loop cleavage is repressed by the TRF2 basic domain, which binds three- and four-way junctions and protects HJs in vitro. By replacing the basic domain with bacterial-protein domains binding three- and four-way junctions, we demonstrated the in vivo relevance of branched-DNA binding. Branched-DNA binding also repressed PARP1, presumably by masking the PARP1 site in the t-loop junction. Although PARP1 recruits HJ resolvases and promotes t-loop cleavage, PARP1 activation alone did not result in t-loop cleavage, thus suggesting that the basic domain also prevents formation of HJs. Concordantly, removal of HJs by BLM helicase mitigated t-loop cleavage in response to loss of the basic domain. We propose that TRF2 masks and stabilizes the t-loop three-way junction, thereby protecting telomeres from detrimental deletions and PARP1 activation.

摘要

虽然 t 环可以保护端粒，但如果分支迁移将三链 t 环连接点转化为四链 Holliday 连接点，那么它们就有可能被 Holliday 连接点（HJ）解旋酶切割。TRF2 基本结构域可以抑制 t 环的切割，它可以结合三链和四链连接点，并在体外保护 HJ。通过用结合三链和四链连接点的细菌蛋白结构域替换基本结构域，我们证明了分支 DNA 结合的体内相关性。分支 DNA 结合还抑制了 PARP1，可能是通过掩盖 t 环连接点中的 PARP1 结合位点。尽管 PARP1 招募 HJ 解旋酶并促进 t 环切割，但单独的 PARP1 激活并不会导致 t 环切割，因此这表明基本结构域也可以防止 HJ 的形成。一致地，BLM 解旋酶去除 HJ 减轻了基本结构域缺失时 t 环的切割。我们提出 TRF2 掩盖并稳定了 t 环三链连接点，从而保护端粒免受有害的缺失和 PARP1 的激活。

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端粒结合蛋白 2 结合分枝 DNA 以保护端粒的完整性。

TRF2 binds branched DNA to safeguard telomere integrity.

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