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LeuO, the regulator of leucine biosynthesis operon of Escherichia coli, is involved in the regulation of as yet unspecified genes affecting the stress response and pathogenesis expression. To get insights into the regulatory role(s) of LeuO, Genomic SELEX screening has been performed to identify the whole set of its regulation targets. A total of 140 LeuO‐binding sites were identified on the E. coli genome, of which as many as 133 (95%) were found to contain the binding sites of H‐NS, the universal silencer of stress‐response genes, supporting the concept that LeuO plays an antagonistic role with anti‐silencing activity. Western blot analysis indicated that H‐NS predominates in growing phase; however, after prolonged culture for 1 week, H‐NS decreased instead LeuO increased, supporting the anti‐silencing role of LeuO. In concert with this model, a set of stress‐response genes including cryptic chaperone/usher‐type fimbriae operons are under the control of antagonistic interplay between LeuO and H‐NS. Confocal laser scanning microscopic observation in flow‐chambers showed that the mutants lacking leuO and some fimbriae genes are defective in biofilm formation or form altered biofilm architecture. Taken together we propose that LeuO is a major player in antagonistic interplay against the universal silencer H‐NS.  相似文献   

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EnterohemorrhagicEscherichia coli (EHEC) forms histological lesions termed attaching and effacing lesions (A/E lesions) on infected large intestine tissue. The major virulence factors involved in A/E lesions reside on a locus of enterocyte effacement (LEE), a pathogenicity island. The LEE comprises 41 specific open reading frames, of which most are organized in 5 major operons,LEE1,LEE2,LEE3,LEE4, andtir (LEE5). The expression of LEE genes is regulated in a complicated manner by environmental factors such as temperature, osmolarity, and quorum sensing. Current knowledge is that regulation is hierarchical: a pivotal positive regulator,ler, is first stimulated, which in turn activates the expression of other operons. Herein, we report on the presence of a negative regulation protein located within the LEE.L0044 is 372 bp in length and is located outside of the 5 major operons. An isogenicL0044 deletion mutant displayed loss of the repression phenotype and increased synthesis of several LEE proteins when bacteria were cultured under repressive conditions that disfavor expression of LEE proteins. Reciprocally,trans expression ofL0044 suppressed the expression of the LEE. Furthermore, mRNA ofler increased as a result of deletingL0044, and disruptingler in aL0044-deleted background reversed the loss of the repression phenotype. Thus,L0044 plays a role in regulating the expression of virulence genes in EHEC by modulating the activation ofler.  相似文献   

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