Recombination between partially homologous DNA depends on the extent and degree of DNA homology, which is monitored by the mismatch repair system (MMR) (Schofield & Hsieh, 2003). Genomic comparisons indicate that naturally occurring MMR-deficient environmental ‘mutator’ strains of V. parahaemolyticus have increased genetic and phenotypic diversity relative to clinical isolates, suggesting that such mutator strains are also ‘promiscuous’ for interspecies DNA uptake (Hazen et al., 2009). Inactivation of the MMR gene, mutS, enhances HGT between Escherichia coli and Salmonella typhimurium
by up to three orders of magnitude (Rayssiguier et al., 1989); likewise a V. choleraeΔmutS strain we constructed was indeed capable of interspecies DNA uptake (data not shown). We are currently characterizing collections of environmental V. cholerae isolates for MMR, QS, and signaling pathway transformation proficiency to determine the role of autoinducer molecules in the emergence of genetic diversity of these marine bacteria. We thank E. Stabb for V. fischeri and B. Bassler for purified CAI-1 and AI-2. We also thank the Hammer lab for discussions and critical manuscript review. This study was supported by a National Science Foundation grant (MCB-0919821) to B.K.H. “
“The adhesin involved in diffuse adherence (AIDA-I) is an autotransporter found in pathogenic strains of Escherichia coli causing diarrhea in humans and pigs. The AIDA-I protein is glycosylated
by a specific enzyme, the AIDA-associated heptosyltransferase (Aah). The aah gene is immediately upstream of the aidA gene, suggesting that they form an operon. However, the mechanisms of regulation GSI-IX cost of the aah and aidA genes are unknown. Using a clinical E. coli isolate expressing AIDA-I, we identified two putative promoters 149 and 128 nucleotides upstream of aah. Using qRT-PCR, we observed that aah and aidA are transcribed in a growth-dependent fashion, mainly at the start of the stationary phase. Western blotting confirmed that protein expression follows the same pattern. Using a fusion
to a reporter gene, we observed that the regulation of the isolated aah promoter matched this transcription and expression pattern. Lastly, we found glucose to be a repressor and nutrient starvation to Erythromycin be an inducer. Taken together, our results suggest that, in the strain and the conditions we studied, aah-aidA is transcribed as a bicistronic message from a promoter upstream of aah, with maximal expression under conditions of nutrient limitation such as high cell density. The Adhesin Involved in Diffuse Adherence (AIDA-I) is an outer membrane protein of pathogenic strains of Escherichia coli, which was first identified from a pathogenic strain isolated in a case of infantile diarrhea (Benz & Schmidt, 1989). Since then, the aidA gene coding for AIDA-I has mostly been found to be associated with strains of E. coli causing diarrhea in pigs (Niewerth et al.