C.Csp231I对DNA结合的结构分析，C.Csp231I是一类调节基因表达的新型R-M控制蛋白家族的成员。

Structural analysis of DNA binding by C.Csp231I, a member of a novel class of R-M controller proteins regulating gene expression.

作者信息

Shevtsov M B, Streeter S D, Thresh S-J, Swiderska A, McGeehan J E, Kneale G G

机构信息

Biophysics Laboratories, Institute of Biomedical and Biomolecular Sciences, School of Biological Sciences, University of Portsmouth, Portsmouth PO1 2DY, England.

出版信息

Acta Crystallogr D Biol Crystallogr. 2015 Feb;71(Pt 2):398-407. doi: 10.1107/S139900471402690X. Epub 2015 Jan 23.

DOI:10.1107/S139900471402690X

PMID:25664751

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4321490/

Abstract

In a wide variety of bacterial restriction-modification systems, a regulatory `controller' protein (or C-protein) is required for effective transcription of its own gene and for transcription of the endonuclease gene found on the same operon. We have recently turned our attention to a new class of controller proteins (exemplified by C.Csp231I) that have quite novel features, including a much larger DNA-binding site with an 18 bp (∼60 Å) spacer between the two palindromic DNA-binding sequences and a very different recognition sequence from the canonical GACT/AGTC. Using X-ray crystallography, the structure of the protein in complex with its 21 bp DNA-recognition sequence was solved to 1.8 Å resolution, and the molecular basis of sequence recognition in this class of proteins was elucidated. An unusual aspect of the promoter sequence is the extended spacer between the dimer binding sites, suggesting a novel interaction between the two C-protein dimers when bound to both recognition sites correctly spaced on the DNA. A U-bend model is proposed for this tetrameric complex, based on the results of gel-mobility assays, hydrodynamic analysis and the observation of key contacts at the interface between dimers in the crystal.

摘要

在各种各样的细菌限制修饰系统中，一种调控“控制器”蛋白（或C蛋白）对于其自身基因的有效转录以及同一操纵子上内切核酸酶基因的转录是必需的。我们最近将注意力转向了一类新型的控制器蛋白（以C.Csp231I为代表），它们具有相当新颖的特征，包括一个大得多的DNA结合位点，在两个回文DNA结合序列之间有一个18 bp（约60 Å）的间隔，以及一个与典型的GACT/AGTC非常不同的识别序列。利用X射线晶体学，解析了该蛋白与其21 bp DNA识别序列复合物的结构，分辨率达到1.8 Å，并阐明了这类蛋白中序列识别的分子基础。启动子序列的一个不同寻常之处在于二聚体结合位点之间的间隔延长，这表明当两个C蛋白二聚体正确地结合在DNA上间隔排列的两个识别位点时，它们之间存在一种新型相互作用。基于凝胶迁移分析、流体动力学分析以及晶体中二聚体界面关键接触点的观察结果，提出了这种四聚体复合物的U型弯曲模型。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa91/4321490/8b07df7c4247/d-71-00398-fig1.jpg

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C.Csp231I对DNA结合的结构分析，C.Csp231I是一类调节基因表达的新型R-M控制蛋白家族的成员。

Structural analysis of DNA binding by C.Csp231I, a member of a novel class of R-M controller proteins regulating gene expression.

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