Project description:These series of experiments compares the expression profile of the motility variants of E.coli MG1655 ( Motile and NonMotile isolates) to an isogenic E.coli MG1655 strain in which the IS5 upstream of flhDC has been deleted. The expression profiles of genes in the E.coli MG1655 motile isolate and E.coli MG1655 Non_Motile isolate also compared. Keywords: parallel sample
Project description:These series contains the controls and the experimental arrays used to map IS5 elements in the E.coli isolates in group A and B. Group A isolates were later named "Motile" isolates, and Group B named "NonMotile. Keywords: parallel sample
Project description:These series of experiments compares the expression profile of the motility variants of E.coli MG1655 ( Motile and NonMotile isolates) to an isogenic E.coli MG1655 strain in which the IS5 upstream of flhDC has been deleted. The expression profiles of genes in the E.coli MG1655 motile isolate and E.coli MG1655 Non_Motile isolate also compared.
Project description:These series contains the controls and the experimental arrays used to map IS5 elements in the E.coli isolates in group A and B. Group A isolates were later named "Motile" isolates, and Group B named "NonMotile.
Project description:Expression and use of motility genes is a potentially beneficial but costly process in bacteria. Interestingly, many isolate strains of Escherichia coli possess motility genes but have lost the ability to activate them in conditions in which motile cells are advantageous, raising the question of how they respond to these situations. Through transcriptome profiling of strains in the E. coli single-gene knockout Keio collection, we noticed drastic upregulation of motility genes in many of the deletion strains as compared to its typically non-motile parent strain (BW25113). This switch to a motile phenotype is not a direct consequence of the genes deleted, but is instead due to a variety of secondary mutations that increase the synthesis of the major motility regulator, FlhDC. We found that a phenotypic switch to motility at a population level can be induced in non-motile E. coli strains by incubation in non-shaking liquid medium overnight but not in shaking media. Individual isolates after the overnight incubation acquired distinct mutations upstream of the flhDC operon, including different insertion sequence (IS) elements and, to a lesser extent, point mutations. The rapid sweep in the non-shaking population shows that non-motile strains without existing regulatory mechanisms can quickly adapt to a motile lifestyle by quickly acquired genetic changes.
Project description:Avian pathogenic Escherichia coli strains frequently cause extra-intestinal infections and are responsible for significant economic losses in the poultry industry worldwide. APEC isolates are closely related to human extraintestinal pathogenic E.coli strains and may also act as pathogens for humans. In this work, three type VI secretion systems were deleted to analyze which pathogenicity characteristics would change in the mutants, compared to wild type strain (SEPT 362).
Project description:We measured the mRNA abundance in E.coli using RNAseq to calculate mRNA lifetimes. The data is used in support of a larger paper on the proteome and transcriptome of E.coli. Comparison of mRNA abundance over time, after the addition of transcription inhibitor, rifampicin. Center: Harvard University
Project description:We measured the mRNA abundance in E.coli using RNAseq to calculate mRNA lifetimes. The data is used in support of a larger paper on the proteome and transcriptome of E.coli.
