Shin Minsang, Song Miryoung, Rhee Joon Haeng, Hong Yeongjin, Kim You-Jin, Seok Yeong-Jae, Ha Kwon-Soo, Jung Se-Hui, Choy Hyon E
Genome Research Center for Enteropathogenic Bacteria and Research Institute of Vibrio Infection, Department of Microbiology, Chonnam National University Medical School, Kwangju 501-746, South Korea.
Genes Dev. 2005 Oct 1;19(19):2388-98. doi: 10.1101/gad.1316305.
Transcription initiation by RNA polymerase (RNP) carrying the house-keeping sigma subunit, sigma70 (Esigma70), is repressed by H-NS at a number of promoters including hdeABp in Escherichia coli, while initiation with RNP carrying the stationary phase sigma, sigma38 (Esigma38), is not. We investigated the molecular mechanism of selective repression by H-NS to identify the differences in transcription initiation by the two forms of RNPs, which show indistinguishable promoter selectivities in vitro. Using hdeABp as a model promoter, we observed with purified components that H-NS, acting at a sequence centered at -118, selectively repressed transcription by Esigma70. This selective repression is attributed to the differences in the interactions between hdeABp and the two forms of RNPs, since no other factor is required for the repression. We observed that the two forms of RNPs could form an open initiation complex (RP(O)) at hdeABp, but that Esigma70 failed to initiate transcription in the presence of H-NS. Interestingly, KMnO4 assays and high-resolution atomic force microscopy (AFM) revealed that hdeABp DNA wrapped around Esigma70 more tightly than around Esigma38, resulting in the potential crossing over of the DNA arms that project out of Esigma70 . RP(O) but not out of Esigma38 . RP(O). Based on these observations, we postulated that H-NS bound at -118 laterally extends by the cooperative recruitment of H-NS molecules to the promoter-downstream sequence joined by wrapping of the DNA around Esigma70 . RP(O), resulting in effective sealing of the DNA loop and trapping of Esigma70. Such a ternary complex of H-NS . Esigma70 hdeABp was demonstrated by AFM. In this case, therefore, Esigma70 acts as a cofactor for DNA looping. Expression of this class of genes by Esigma38 in the stationary phase is not due to its promoter specificity but to the architecture of the promoter . Esigma38 complex.
携带管家σ亚基σ70(Eσ70)的RNA聚合酶(RNP)在多个启动子处的转录起始受到H-NS的抑制,包括大肠杆菌中的hdeABp启动子,而携带稳定期σ亚基σ38(Eσ38)的RNP起始转录则不受影响。我们研究了H-NS选择性抑制的分子机制,以确定两种形式的RNP在转录起始方面的差异,这两种RNP在体外表现出难以区分的启动子选择性。以hdeABp作为模型启动子,我们使用纯化的组分观察到,H-NS作用于以-118为中心的序列,选择性地抑制Eσ70的转录。这种选择性抑制归因于hdeABp与两种形式的RNP之间相互作用的差异,因为抑制作用不需要其他因子。我们观察到,两种形式的RNP都可以在hdeABp处形成开放起始复合物(RP(O)),但在H-NS存在的情况下,Eσ70无法起始转录。有趣的是,高锰酸钾分析和高分辨率原子力显微镜(AFM)显示,hdeABp DNA围绕Eσ70缠绕得比围绕Eσ38更紧密,导致从Eσ70·RP(O)伸出的DNA臂可能交叉,但不会从Eσ38·RP(O)伸出。基于这些观察结果,我们推测,结合在-118处的H-NS通过H-NS分子协同募集到由围绕Eσ70·RP(O)缠绕的DNA连接的启动子下游序列而横向延伸,从而有效地封闭DNA环并捕获Eσ70。AFM证实了这种H-NS·Eσ70·hdeABp三元复合物的存在。因此,在这种情况下,Eσ70充当DNA环化的辅因子。这类基因在稳定期由Eσ38表达不是由于其启动子特异性,而是由于启动子·Eσ38复合物的结构。