枯草芽孢杆菌spoIIAB基因新突变对sigma F和sigma G活性调控的影响

D Foulger, J Errington
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引用次数: 15

摘要

枯草芽孢杆菌的spoIIAB基因编码sigma F的抑制剂,sigma F是一种转录因子,在孢子形成过程中孢子前特异性基因表达的建立中起着至关重要的作用。SpoIIAB蛋白可能还可以抑制密切相关的sigma因子sigma G,该因子决定孢子前特异性转录的后期阶段。我们已经分离出两个新的spoIIAB基因错义突变。spoIIAB28的行为类似于先前描述的spoIIAB1突变,主要影响sigma g的活性。相反,spoIIAB22突变似乎主要是在其抑制sigma f的能力上受损。所有三个错义突变都聚集在spoIIAB的n端编码区,这表明该区域的蛋白质与sigma因子相互作用。SpoIIAB的极端n端部分可能与sigma G活性的调节有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of new mutations in the spoIIAB gene of Bacillus subtilis on the regulation of sigma F and sigma G activities.

The spoIIAB gene of Bacillus subtilis encodes an inhibitor of sigma F, a transcription factor that plays a crucial role in the establishment of prespore-specific gene expression during sporulation. The SpoIIAB protein can probably also inhibit a closely related sigma factor sigma G, which determines the later phase of prespore-specific transcription. We have isolated two new missense mutations in the spoIIAB gene. spoIIAB28 behaves like the previously described spoIIAB1 mutation, in that it mainly affects the activity of sigma G. In contrast, the spoIIAB22 mutation seems to be impaired mainly in its ability to inhibit sigma F. All three missense mutations are clustered in the N-terminal coding region of spoIIAB, suggesting that this region of the protein interacts with the sigma factors. The extreme N-terminal part of SpoIIAB may be specifically concerned with the regulation of sigma G activity.

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