The role of the Campylobacter jejuni flagella in adhesion to, and penetration into, eukaryotic cells was investigated. We used homologous recombination to inactivate the two flagellin genes flaA and flaB of C. jejuni, respectively. Mutants in which flaB but not flaA is inactivated remain motile. In contrast a defective flaA gene leads to immotile bacteria. Invasion studies showed that mutants without motile flagella have lost their potential to adhere to, and penetrate into, human intestinal cells in vitro. Invasive properties could be partially restored by centrifugation of the mutants onto the tissue culture cells, indicating that motility is a major, but not the only, factor involved in invasion.
Positive‐stranded genomic RNA of coronavirus MHV and its six subgenomic mRNAs are synthesized in the cytoplasm of the host cell. The mRNAs are composed of leader and body sequences which are non‐contiguous on the genome and are fused together in the cytoplasm by a mechanism which appears to involve an unusual and specific ‘polymerase jumping’ event.
CFA/I fimbriae of enterotoxigenic Escherichia coli are expressed at 37 degrees C and not at 20 degrees C. Expression of CFA/I fimbriae requires two DNA regions (regions 1 and 2) which are separated by 40 kb on the wild type plasmid. Region 2 encodes a protein (CfaD) which activates the promoter in region 1. We investigated whether the histone‐like protein H‐NS (H1) of E.coli is involved in the temperature regulated expression of CFA/I fimbriae. As demonstrated recently with other temperature regulated genes, a mutation in the gene coding for this nucleoid‐associated H‐NS (H1) protein resulted in derepression of CFA/I expression. CFA/I fimbriae were now expressed both at 20 degrees C and 37 degrees C. More strinkingly, the positive regulator CfaD was not needed for CFA/I expression in an H‐NS‐ strain. This indicates that CfaD diminishes an inhibitory effect of the H‐NS nucleoid‐associated protein. We also showed that in the H‐NS‐ strain the CfaD protein still has a positive effect on the transcription of CFA/I.
A promoterless lacZ shuttle vector, which allowed screening of promoters by β-galactosidase activity inCampylobacter jejuni and Escherichia coli, was developed. Chromosomal DNA fragments from C. jejuniwere cloned into this vector; 125 of 1,824 clones displayed promoter activity in C. jejuni. Eleven clones with strong promoter activity in C. jejuni were further characterized. Their nucleotide sequences were determined, and the transcriptional start sites of the putative promoters in C. jejuni were determined by primer extension. Only 6 of these 11 promoters were functional in E. coli. The 11 newly characterized and 10 previously characterized C. jejuni promoters were used to establish a consensus sequence for C. jejuni promoters. The 21 promoters were found to be very similar. They contain three conserved regions, located approximately 10, 16, and 35 bp upstream of the transcriptional start point. The −10 region resembles that of a typical ς70
E. colipromoter, but the −35 region is completely different. In addition a −16 region typical for gram-positive bacteria was identified.
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