一种原核生物DNA修复蛋白的结构域进化及其与主动运输蛋白的关系。

Domainal evolution of a prokaryotic DNA repair protein and its relationship to active-transport proteins.

作者信息

Doolittle R F, Johnson M S, Husain I, Van Houten B, Thomas D C, Sancar A

出版信息

Nature. 1986;323(6087):451-3. doi: 10.1038/323451a0.

Abstract

The ABC excision nuclease of Escherichia coli is an ATP-dependent DNA repair enzyme composed of three protein subunits, UvrA, UvrB and UvrC. The DNA sequences of all three genes have been reported. UvrA, the component that binds directly to the DNA, and UvrB, which attaches itself to the UvrA-DNA complex, both contain consensus sequences though to be diagnostic of ATP-binding sites, although the UvrC sequence does not. We now report that a computer analysis of the UvrA sequence has revealed an unusual series of internal duplications centering around putative metal-binding sites which may be involved in the interaction with DNA. We also find a strong evolutionary relationship to a family of prokaryotic membrane-associated active-transport proteins.

摘要

大肠杆菌的ABC切除核酸酶是一种依赖ATP的DNA修复酶，由三个蛋白质亚基UvrA、UvrB和UvrC组成。这三个基因的DNA序列均已公布。直接与DNA结合的UvrA成分以及附着于UvrA-DNA复合物的UvrB均含有推测为ATP结合位点诊断特征的共有序列，尽管UvrC序列没有。我们现在报告，对UvrA序列的计算机分析揭示了围绕假定的金属结合位点的一系列不同寻常的内部重复序列，这些位点可能参与与DNA的相互作用。我们还发现它与一类原核生物膜相关主动转运蛋白有很强的进化关系。

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一种原核生物DNA修复蛋白的结构域进化及其与主动运输蛋白的关系。

Domainal evolution of a prokaryotic DNA repair protein and its relationship to active-transport proteins.

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