在亚基A抑制剂存在的情况下，DNA促旋酶会在特定位点切割短至20个碱基对的DNA片段。

In the presence of subunit A inhibitors DNA gyrase cleaves DNA fragments as short as 20 bp at specific sites.

作者信息

Gmünder H, Kuratli K, Keck W

机构信息

F. Hoffmann-La Roche Ltd, Pharmaceutical Research Preclinical Infectious Diseases, CH-4070 Basel, Switzerland.

出版信息

Nucleic Acids Res. 1997 Feb 1;25(3):604-11. doi: 10.1093/nar/25.3.604.

DOI:10.1093/nar/25.3.604

PMID:9016602

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC146451/

Abstract

A key step in the supercoiling reaction is the DNA gyrase-mediated cleavage and religation step of double-stranded DNA. Footprinting studies suggest that the DNA gyrase binding site is 100-150 bp long and that the DNA is wrapped around the enzyme with the cleavage site located near the center of the fragment. Subunit A inhibitors interrupt this cleavage and resealing cycle and result in cleavage occurring at preferred sites. We have been able to show that even a 30 bp DNA fragment containing a 20 bp preferred cleavage sequence from the pBR322 plasmid was a substrate for the DNA gyrase-mediated cleavage reaction in the presence of inhibitors. This DNA fragment was cleaved, although with reduced efficiency, at the same sites as a 122 bp DNA fragment. A 20 bp DNA fragment was cleaved with low efficiency at one of these sites and a 10 bp DNA fragment was no longer a substrate. We therefore propose that subunit A inhibitors interact with DNA at inhibitor-specific positions, thus determining cleavage sites by forming ternary complexes between DNA, inhibitors and DNA gyrase.

摘要

超螺旋反应中的关键步骤是DNA促旋酶介导的双链DNA切割和重新连接步骤。足迹研究表明，DNA促旋酶结合位点长100 - 150 bp，DNA围绕酶缠绕，切割位点位于片段中心附近。亚基A抑制剂会中断这种切割和重新封闭循环，并导致在偏好位点发生切割。我们已经能够证明，即使是一个来自pBR322质粒的包含20 bp偏好切割序列的30 bp DNA片段，在有抑制剂存在的情况下也是DNA促旋酶介导的切割反应的底物。这个DNA片段在与122 bp DNA片段相同的位点被切割，尽管效率较低。一个20 bp的DNA片段在其中一个位点被低效切割，而一个10 bp的DNA片段不再是底物。因此，我们提出亚基A抑制剂在抑制剂特异性位置与DNA相互作用，从而通过在DNA、抑制剂和DNA促旋酶之间形成三元复合物来确定切割位点。

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