类核相关细菌蛋白之间的异源相互作用:大肠杆菌H-NS中StpA稳定区域的定位
Heteromeric interactions among nucleoid-associated bacterial proteins: localization of StpA-stabilizing regions in H-NS of Escherichia coli.
作者信息
Johansson J, Eriksson S, Sondén B, Wai S N, Uhlin B E
机构信息
Department of Microbiology, Umeå University, S-90187 Umeå, Sweden.
出版信息
J Bacteriol. 2001 Apr;183(7):2343-7. doi: 10.1128/JB.183.7.2343-2347.2001.
Abstract
The nucleoid-associated proteins H-NS and StpA in Escherichia coli bind DNA as oligomers and are implicated in gene regulatory systems. There is evidence for both homomeric and heteromeric H-NS-StpA complexes. The two proteins show differential turnover, and StpA was previously found to be subject to protease-mediated degradation by the Lon protease. We investigated which regions of the H-NS protein are able to prevent degradation of StpA. A set of truncated H-NS derivatives was tested for their ability to mediate StpA stability and to form heteromers in vitro. The data indicate that H-NS interacts with StpA at two regions and that the presence of at least one of the H-NS regions is necessary for StpA stability. Our results also suggest that a proteolytically stable form of StpA, StpA(F21C), forms dimers, whereas wild-type StpA in the absence of H-NS predominantly forms tetramers or oligomers, which are more susceptible to proteolysis.
摘要
大肠杆菌中的类核相关蛋白H-NS和StpA以寡聚体形式结合DNA,并参与基因调控系统。有证据表明存在同聚体和异聚体H-NS-StpA复合物。这两种蛋白质表现出不同的周转情况,之前发现StpA会被Lon蛋白酶介导进行蛋白酶水解降解。我们研究了H-NS蛋白的哪些区域能够防止StpA的降解。测试了一组截短的H-NS衍生物在体外介导StpA稳定性以及形成异聚体的能力。数据表明H-NS在两个区域与StpA相互作用,并且至少一个H-NS区域的存在对StpA的稳定性是必需的。我们的结果还表明,一种蛋白酶稳定形式的StpA,即StpA(F21C),形成二聚体,而在没有H-NS的情况下野生型StpA主要形成四聚体或寡聚体,它们更容易受到蛋白酶水解作用。
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