染色质可及性复合物（CHRAC）在SV40 DNA复制起点处的体外染色质重塑。

In vitro chromatin remodelling by chromatin accessibility complex (CHRAC) at the SV40 origin of DNA replication.

作者信息

Alexiadis V, Varga-Weisz P D, Bonte E, Becker P B, Gruss C

机构信息

University of Konstanz, Division of Biology, Konstanz, Germany.

出版信息

EMBO J. 1998 Jun 15;17(12):3428-38. doi: 10.1093/emboj/17.12.3428.

DOI:10.1093/emboj/17.12.3428

PMID:9628878

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1170679/

Abstract

DNA replication is initiated by binding of initiation factors to the origin of replication. Nucleosomes are known to inhibit the access of the replication machinery to origin sequences. Recently, nucleosome remodelling factors have been identified that increase the accessibility of nucleosomal DNA to transcription regulators. To test whether the initiation of DNA replication from an origin covered by nucleosomes would also benefit from the action of nucleosome remodelling factors, we reconstituted SV40 DNA into chromatin in Drosophila embryo extracts. In the presence of T-antigen and ATP, a chromatin-associated cofactor allowed efficient replication from a nucleosomal origin in vitro. In search of the energy-dependent cofactor responsible we found that purified 'chromatin accessibility complex' (CHRAC) was able to alter the nucleosomal structure at the origin allowing the binding of T-antigen and efficient initiation of replication. These experiments provide evidence for the involvement of a nucleosome remodelling machine in structural changes at the SV40 origin of DNA replication in vitro.

摘要

DNA复制是由起始因子与复制起点结合启动的。已知核小体会抑制复制机器接近起始序列。最近，已鉴定出核小体重塑因子，其可增加核小体DNA对转录调节因子的可及性。为了测试从被核小体覆盖的起点进行DNA复制的起始是否也会受益于核小体重塑因子的作用，我们在果蝇胚胎提取物中将SV40 DNA重构成染色质。在T抗原和ATP存在的情况下，一种与染色质相关的辅因子允许在体外从核小体起点进行高效复制。在寻找负责的能量依赖性辅因子时，我们发现纯化的“染色质可及性复合物”（CHRAC）能够改变起点处的核小体结构，从而允许T抗原结合并高效启动复制。这些实验为核小体重塑机器参与体外SV40 DNA复制起点的结构变化提供了证据。

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Nature. 1997 Aug 7;388(6642):598-602. doi: 10.1038/41587.

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