Smc5/6 的特化界面控制铰链稳定性和 DNA 结合。

Specialized interfaces of Smc5/6 control hinge stability and DNA association.

机构信息

Cancer Research UK DNA Repair Enzymes Group, Genome Damage and Stability Centre, School of Life Sciences, University of Sussex, Falmer, BN1 9RQ, UK.

Genome Damage and Stability Centre, School of Life Sciences, University of Sussex, Falmer, Brighton BN1 9RQ, UK.

出版信息

Nat Commun. 2017 Jan 30;8:14011. doi: 10.1038/ncomms14011.

DOI:10.1038/ncomms14011

PMID:28134253

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5290277/

Abstract

The Structural Maintenance of Chromosomes (SMC) complexes: cohesin, condensin and Smc5/6 are involved in the organization of higher-order chromosome structure-which is essential for accurate chromosome duplication and segregation. Each complex is scaffolded by a specific SMC protein dimer (heterodimer in eukaryotes) held together via their hinge domains. Here we show that the Smc5/6-hinge, like those of cohesin and condensin, also forms a toroidal structure but with distinctive subunit interfaces absent from the other SMC complexes; an unusual 'molecular latch' and a functional 'hub'. Defined mutations in these interfaces cause severe phenotypic effects with sensitivity to DNA-damaging agents in fission yeast and reduced viability in human cells. We show that the Smc5/6-hinge complex binds preferentially to ssDNA and that this interaction is affected by both 'latch' and 'hub' mutations, suggesting a key role for these unique features in controlling DNA association by the Smc5/6 complex.

摘要

染色体结构维持（SMC）复合物：黏合蛋白、凝聚蛋白和 Smc5/6 参与了高级染色体结构的组织，这对准确的染色体复制和分离至关重要。每个复合物都由特定的 SMC 蛋白二聚体（真核生物中的异二聚体）构成，通过铰链结构域结合在一起。在这里，我们发现 Smc5/6-铰链与黏合蛋白和凝聚蛋白的铰链一样，也形成了一个环形结构，但与其他 SMC 复合物的亚基界面不同；一个不寻常的“分子闩锁”和一个功能性“中心”。这些界面上的定义突变会导致裂殖酵母对 DNA 损伤剂敏感和人类细胞活力降低等严重表型效应。我们表明 Smc5/6-铰链复合物优先与 ssDNA 结合，并且这种相互作用受到“闩锁”和“中心”突变的影响，这表明这些独特特征在控制 Smc5/6 复合物与 DNA 结合方面起着关键作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/68b3/5290277/bcbea78e131b/ncomms14011-f1.jpg

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Smc5/6 的特化界面控制铰链稳定性和 DNA 结合。

Specialized interfaces of Smc5/6 control hinge stability and DNA association.

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