大肠杆菌菌毛相变异:对整合宿主因子的依赖性以及与其他位点特异性重组酶的同源性
Fimbrial phase variation in Escherichia coli: dependence on integration host factor and homologies with other site-specific recombinases.
作者信息
Dorman C J, Higgins C F
出版信息
J Bacteriol. 1987 Aug;169(8):3840-3. doi: 10.1128/jb.169.8.3840-3843.1987.
Abstract
Expression of fimA, the structural gene for type 1 fimbriae of Escherichia coli, is phase variable. Significant homologies were identified between the recombinases which control fimbrial phase variation, FimB and FimE, and the integrase class of site-specific recombinases. Normal expression of fimA was shown to require the integration host factor (IHF). Mutations in either the himA-or the himD (hip) gene, which encode the alpha and beta subunits of IHF, respectively, prevented phase variation and locked expression of fimA in either the "on" or "off" phase. In addition, both himA and himD lesions caused a sevenfold reduction in expression of a phi(fimA-lacZ) operon fusion in strains in which fimA was locked in the on phase. Thus, IHF plays a dual role in controlling fimA expression: it is required both for inversion of the fimA control region and for efficient expression from the fimA promoter. A mechanism by which IHF may exert control over fimA expression is discussed.
摘要
大肠杆菌1型菌毛的结构基因fimA的表达呈相位变异。在控制菌毛相位变异的重组酶FimB和FimE与位点特异性重组酶的整合酶类别之间发现了显著的同源性。已表明fimA的正常表达需要整合宿主因子(IHF)。分别编码IHF的α和β亚基的himA或himD(hip)基因发生突变,可阻止相位变异,并将fimA的表达锁定在“开”或“关”阶段。此外,himA和himD损伤均导致fimA锁定在开启阶段的菌株中φ(fimA-lacZ)操纵子融合体的表达降低七倍。因此,IHF在控制fimA表达中起双重作用:它既是fimA控制区倒位所必需的,也是fimA启动子高效表达所必需的。本文讨论了IHF可能对fimA表达施加控制的机制。
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