胞嘧啶甲基化在体内增强Z-DNA的形成。

Cytosine methylation enhances Z-DNA formation in vivo.

作者信息

Zacharias W, Jaworski A, Wells R D

机构信息

Department of Biochemistry, School of Medicine, University of Alabama, Birmingham 35294.

出版信息

J Bacteriol. 1990 Jun;172(6):3278-83. doi: 10.1128/jb.172.6.3278-3283.1990.

DOI:10.1128/jb.172.6.3278-3283.1990

PMID:2188955

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC209136/

Abstract

The influence of cytosine methylation on the supercoil-stabilized B-Z equilibrium in Escherichia coli was analyzed by two independent assays. Both the M.EcoRI inhibition assay and the linking-number assay have been used previously to establish that dC-dG segments of sufficient lengths can exist as left-handed helices in vivo. A series of dC-dG plasmid inserts with Z-form potential, ranging in length from 14 to 74 base pairs, was investigated. Complete methylation of cytosine at all HhaI sites, including the inserts, was obtained by coexpression of the HhaI methyltransferase (M.HhaI) in cells also carrying a dC-dG-containing plasmid. Both assays showed that for all lengths of dC-dG inserts, the relative amounts of B and Z helices were shifted to more Z-DNA in the presence of M.HhaI than in the absence of M.HhaI. These results indicate that cytosine methylation enhances the formation of Z-DNA helices at the superhelix density present in E. coli. The B-Z equilibrium, in combination with site-specific base methylation, may constitute a concerted mechanism for the modulation of DNA topology and DNA-protein interactions.

摘要

通过两种独立的测定方法分析了胞嘧啶甲基化对大肠杆菌中超螺旋稳定的B-Z平衡的影响。M.EcoRI抑制测定法和连环数测定法此前均已用于证实足够长度的dC-dG片段在体内可呈左手螺旋形式存在。研究了一系列具有Z型潜能、长度从14至74个碱基对不等的dC-dG质粒插入片段。通过在携带含dC-dG质粒的细胞中共表达HhaI甲基转移酶（M.HhaI），实现了包括插入片段在内的所有HhaI位点处胞嘧啶的完全甲基化。两种测定方法均表明，对于所有长度的dC-dG插入片段，与不存在M.HhaI时相比，在存在M.HhaI的情况下，B螺旋和Z螺旋的相对量向更多的Z-DNA方向偏移。这些结果表明，胞嘧啶甲基化增强了大肠杆菌中存在的超螺旋密度下Z-DNA螺旋的形成。B-Z平衡与位点特异性碱基甲基化相结合，可能构成一种协同机制，用于调节DNA拓扑结构和DNA-蛋白质相互作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0eb5/209136/faf36a7d3da3/jbacter00160-0475-a.jpg

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Cytosine methylation enhances Z-DNA formation in vivo.胞嘧啶甲基化在体内增强Z-DNA的形成。

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胞嘧啶甲基化在体内增强Z-DNA的形成。

Cytosine methylation enhances Z-DNA formation in vivo.

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