Project description:Mutation of marA, rob, and soxS causes a clinical strain of E.coli to be attenuated at d3 post-infection in a mouse model of pyelonephritis, here we extract RNA at d2 post infection to analyze transcriptional differences between the two strains. In order to purify enough bacterial RNA to perform microarray, we chose a time point (day 2 post-infection) just before the triple mutant begins to decrease in bacterial load. Mouse kidneys were extracted, homogonized, and samples were pooled in RNALater (Ambion) before extraction and analysis of the transcriptomes

Project description:Mutation of marA, rob, and soxS causes a clinical strain of E.coli to be attenuated at d3 post-infection in a mouse model of pyelonephritis, here we extract RNA at d2 post infection to analyze transcriptional differences between the two strains.

Project description:In bacteria the defence system to counter oxidative stress is orchestrated by three transcriptional factors – SoxS, SoxR and OxyR. Although the transcriptional regulon of these factors are known in many bacteria, similar data is not available for K. pneumoniae. To address this data gap, oxidative stress was induced in K. pneumoniae MGH 78578 using paraquat and the corresponding regulon was identified using RNA-seq. Since soxS was significantly induced , a soxS mutant was constructed to decipher this regulon in K. pneumoniae MGH75878. The ‘oxidative SoxS regulon’, comprising common genes differentially regulated genes in oxidative and soxS regulon was identified from both regulons – characterised a stringent group of genes which were regulated by SoxS during oxidative stress. Efflux pump encoding genes like acrAB-tolC, acrE along with marRABwere identified in the oxidative SoxS regulon. The phenotypic effect of the observed efflux pump regulation was confirmed in the soxS mutant that exhibited an 2 fold reduction in the minimum bactericidal concentration (MBC) against tetracycline compared to that of the isogenic wild type. Impaired efflux activity, allowing tetracycline to be accumulated in the cytoplasm to bactericidal levels, was further confirmed using tetraphenylphosphonium (TPP+) ion accumulation assay. The susceptibility of the soxS mutant against tetracycline was also apparent in vivo, in the zebrafish embryo model. We conclude that the soxS gene could be considered as a genetic target against which an inhibitor could be developed and be used in combinatorial therapy with tetracycline to combat infections associated with multi-drug resistant K. pneumoniae.

Project description:Wild type E.coli SE15 vs. LuxS mutant E.coli SE15

Project description:The specificity of humoral immune responses depends on the functional rearrangement and expression of only one allele of immunoglobulin (Ig) genes. Here, we analyzed the comprehensive proteome of the murine Ig Emu enhancer, which governs the rearrangement and expression of the Ig mu heavy chain allele. By mass spectrometry of proteins bound at wild type versus mutant Emu enhancers, we identified Emu-binding proteins and associated multi-protein complexes. We found that the MSL/MOF complex, a regulator of gene dosage compensation in flies, binds Emu via transcription factor YY1 and facilitates Emu-driven chromatin looping and promoter interaction. Msl2 gene knockout in primary pre-B cells or Mof heterozygosity in mice reduced mu gene expression. In this data set we compare proteins binding to the wild-type Emu versus a DNA bait control for which the 5’ and 3’ MAR (matrix attachment region) sequences were deleted (and substituted with the murine Ig mu locus DNA flanking the MARs).The Delta MAR mutant abrogates binding of proteins recognizing MAR elements. SILAC quantitative proteomics was employed in a label swap approach incubating wild-type and control DNA with labeled and non-labled protein extracts, respectively.

Project description:Transcriptional profiling of E.coli SE15 comparing wild type E.coli SE15 with Autoindecur 2 synthesis gene LuxS mutnat E.coli SE15. E.coli SE15 is isolated from indwelling catheter of urinary tract infected patient. Examine change of quorum sensing related gene by deleting autoinducer 2 synthesis gene LuxS in E.coli One array: Wild type E.coli SE15 vs. LuxS mutant E.coli SE15

Project description:This project contains intact protein MS and PRM data for several central metabolic enzymes in E.coli. The enzymes are both wild-type and mutant for several

Project description:To identify the FurA regulon in Mycobacterium smegmatis MC2 155, we constructed a furA triple mutant with deletion of three furA paralogous genes (MSMEG_6383, MSMEG_3460, and MSMEG_6253) and profiled the transcriptomes of the wild-type and furA triple mutant strains. Differentially expressed genes were identified pair-wisely by means of the edgeR package in R language. 742 genes were differentially expressed in the furA triple mutant compared to the wild-type strain.

Project description:Transcriptional profiling of E.coli SE15 comparing wild type E.coli SE15 with Autoindecur 2 synthesis gene LuxS mutnat E.coli SE15. E.coli SE15 is isolated from indwelling catheter of urinary tract infected patient. Examine change of quorum sensing related gene by deleting autoinducer 2 synthesis gene LuxS in E.coli

Project description:In this study, in order to identify miRNA targets, a degradome library derived from anthers of the WT and GMS (Genetic Male Sterility) mutant representing three stages of development was constructed and sequenced, resulting in the generation of 24.6 million raw reads. After removal of low quality sequences and adapter sequences, 24.4 million clean reads were obtained and 98% were 20 or 21 nt in length as expected in that normally length distribution peak of degradome fragment is between 20 and 21 nt [Addo-Quaye C, Eshoo TW, Bartel DP, Axtell MJ: Endogenous siRNA and miRNA targets identified by sequencing of the Arabidopsis degradome. Curr Biol 2008, 18:758-762]. Identification of miRNA targets in the WT and GMS muant anthers. Anthers of the WT and GMS mutant representing three stages of development [the meiosis stage (WT: Mar-F-1; mutant: Mar-S-1) and tetrad stage (WT: Mar-F-2; mutant: Mar-S-2), together with the uninucleate microspore stage (WT: Mar-F-3; mutant: Mar-S-3) from the GMS M-bM-^@M-^XDong AM-bM-^@M-^Y mutant and its fertile wild type] were collected during early mornings.