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In Salmonella enterica serovar Typhimurium, sigma(28) and anti-sigma factor FlgM are regulatory proteins crucial for flagellar biogenesis and motility. In this study, we used S. enterica serovar Typhimurium as an in vivo heterologous system to study sigma(28) and anti-sigma(28) interactions in organisms where genetic manipulation poses a significant challenge due to special growth requirements. The chromosomal copy of the S. enterica serovar Typhimurium sigma(28) structural gene fliA was exchanged with homologs of Aquifex aeolicus (an extreme thermophile) and Chlamydia trachomatis (an obligate intracellular pathogen) by targeted replacement of a tetRA element in the fliA gene location using lambda-Red-mediated recombination. The S. enterica serovar Typhimurium hybrid strains showed sigma(28)-dependent gene expression, suggesting that sigma(28) activities from diverse species are preserved in the heterologous host system. A. aeolicus mutants defective for sigma(28)/FlgM interactions were also isolated in S. enterica serovar Typhimurium. These studies highlight a general strategy for analysis of protein function in species that are otherwise genetically intractable and a straightforward method of chromosome restructuring using lambda-Red-mediated recombination.  相似文献   

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Rhodobacter sphaeroides sigma(E) is a member of the extra cytoplasmic function sigma factor (ECF) family, whose members have been shown to regulate gene expression in response to a variety of signals. The functions of ECF family members are commonly regulated by a specific, reversible interaction with a cognate anti-sigma factor. In R.sphaeroides, sigma(E) activity is inhibited by ChrR, a member of a newly discovered family of zinc containing anti-sigma factors. We used gel filtration chromatography to gain insight into the mechanism by which ChrR inhibits sigma(E) activity. We found that formation of the sigma(E):ChrR complex inhibits the ability of sigma(E) to form a stable complex with core RNA polymerase. Since the sigma(E):ChrR complex inhibits the ability of the sigma factor to bind RNA polymerase, we sought to identify amino acid substitutions in sigma(E) that altered the sensitivity of this sigma factor to inhibition by ChrR. This analysis identified single amino acid changes in conserved region 2.1 of sigma(E) that either increased or decreased the sensitivity of sigma(E) for inhibition by ChrR. Many of the amino acid residues that alter the sensitivity of sigma(E) to ChrR are located within regions known to be important for interacting with core RNA polymerase in other members of the sigma(70) superfamily. Our results suggest a model where solvent-exposed residues with region 2.1 of sigma(E) interact with ChrR to sterically occlude this sigma factor from binding core RNA polymerase and to inhibit target gene expression.  相似文献   

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The extracytoplasmic-function (ECF) family of sigma factors comprises a large group of proteins required for synthesis of a wide variety of extracytoplasmic products by bacteria. Residues important for core RNA polymerase (RNAP) binding, DNA melting, and promoter recognition have been identified in conserved regions 2 and 4.2 of primary sigma factors. Seventeen residues in region 2 and eight residues in region 4.2 of an ECF sigma factor, PvdS from Pseudomonas aeruginosa, were selected for alanine-scanning mutagenesis on the basis of sequence alignments with other sigma factors. Fourteen of the mutations in region 2 had a significant effect on protein function in an in vivo assay. Four proteins with alterations in regions 2.1 and 2.2 were purified as His-tagged fusions, and all showed a reduced affinity for core RNAP in vitro, consistent with a role in core binding. Region 2.3 and 2.4 mutant proteins retained the ability to bind core RNAP, but four mutants had reduced or no ability to cause core RNA polymerase to bind promoter DNA in a band-shift assay, identifying residues important for DNA binding. All mutations in region 4.2 reduced the activity of PvdS in vivo. Two of the region 4.2 mutant proteins were purified, and each showed a reduced ability to cause core RNA polymerase to bind to promoter DNA. The results show that some residues in PvdS have functions equivalent to those of corresponding residues in primary sigma factors; however, they also show that several residues not shared with primary sigma factors contribute to protein function.  相似文献   

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FlgM is an anti-sigma factor of the flagellar-specific sigma (sigma) subunit of RNA polymerase in Bacillus subtilis, and it is responsible of the coupling of late flagellar gene expression to the completion of the hook-basal body structure. We have overproduced the protein in soluble form and characterized it. FlgM forms dimers as shown by gel exclusion chromatography and native polyacrylamide gel electrophoresis and interacts in vitro with the cognate sigmaD factor. The FlgM.sigmaD complex is a stable heterodimer as demonstrated by gel exclusion chromatography, chemical cross-linking, native polyacrylamide gel electrophoresis, and isoelectric focusing. sigmaD belongs to the group of sigma factors able to bind to the promoter sequence even in the absence of core RNA polymerase. The FlgM.sigmaD complex gave a shift in a DNA mobility shift assay with a probe containing a sigmaD-dependent promoter sequence. Limited proteolysis studies indicate the presence of two structural motifs, corresponding to the N- and C-terminal regions, respectively.  相似文献   

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The fliA gene encoding sigma 28 in Yersinia enterocolitica.   总被引:1,自引:1,他引:0       下载免费PDF全文
Yersinia enterocolitica is an enterobacterium responsible for gastrointestinal syndromes. Its pathogenicity depends on the presence of the 70-kb pYV plasmid, which directs Yop secretion. The Yop secretion machinery, consisting of the YscA-U and LcrD proteins, presents some structural similarity with the flagellum assembly machinery characterized in other bacteria. Flagellum assembly requires sigma 28, an alternative sigma factor. The region upstream of the lcrD gene resembles promoters recognized by sigma 28, suggesting that the similarity between Yop secretion and flagellum assembly could extend to their regulation. The chromosome of Y. enterocolitica also contains pathogenicity determinants such as myfA, which encodes the Myf antigen subunit. The promoter region of myfA also resembles promoters recognized by sigma 28. In an attempt to clarify the role of sigma 28 in the expression of lcrD, myfA, and flagellar genes, we cloned, sequenced, and mutagenized the fliA gene encoding the sigma 28 homolog in Y. enterocolitica. As is the case in other bacteria, fliA was required for motility. However, it was involved neither in fibrilla synthesis nor in Yop secretion. The fliA mutant allowed us to monitor the role of motility in pathogenesis. At least in the mouse model, motility seemed not to be required for Y. enterocolitica pathogenesis.  相似文献   

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