Project description:We used DNA microarrays to define the physiological roles of the Tap efflux pump in M. bovis BCG during the exponential and the stationary phase of in vitro growth. For this purpose we constructed a M. bovis BCG strain in which the tap gene was inactivated by the insertion of a hygromycin resistance cassette (?-hyg). When the gene expression patterns of the tap mutant were compared to the wild-type strain, almost no differences were observed during exponential growth; only seven genes slightly increased their expression. In contrast, more that 100 genes showed a variation in their level of expression during stationary growth. More than ten representative genes were chosen from the microarray experiments and their expression was measured by quantitative RT-PCR using sigA as invariant internal control. In support to the gene expression profiling data, the mRNA levels of all selected genes was significantly different in the tap mutant strain relative to control. A functional category analysis (http://tuberculist.epfl.ch/index.html) of the genes differentially expressed revealed a high proportion belonging to the Virulence, Detoxification, Adaptation (VDA), Intermediary Metabolism and Respiration (IMR), Conserved Hypotheticals (CH), and Cell Wall and Cell Processing (CWCP) categories suggesting a major adaptation to a stress generated by inactivation of the tap efflux pump gene. We compared the global gene expression of the tap mutant versus the wild-type strain of M. bovis BCG during the exponential (one week; OD540= 0.2-0.3) and stationary (six weeks; OD540= 0.8-1.0) growth. Hybridizations were performed using RNA extracted from two different biological samples. Each sample was hybridized twice through swap labeling of the respective cDNAs.

Project description:Transcriptome analysis of the Tap efflux pump mutant in Mycobacterium bovis BCG.

Project description:LC-MSMS of metabolites and polar lipids extracted from M. bovis BCG. Exponential and Stationary Phase

Project description:Streptococcus pyogenes chromosomal island M1 (SpyCIM1) integrates by site-specific recombination into the 5’ end of DNA mismatch repair (MMR) gene mutL in strain SF370SmR, blocking transcription of it and the downstream operon genes. During exponential growth, SpyCIM1 excises from the chromosome and replicates as an episome, restoring mutL transcription. This process is reversed in stationary phase with SpyCIM1 re-integrating into mutL, returning the cells to a mutator phenotype. Here we show that elimination of SpyCIM1 relieves this mutator phenotype. The downstream MMR operon genes, multidrug efflux pump lmrP, Holliday junction resolution helicase ruvA, and DNA base excision repair glycosylase tag, are also restored to constitutive expression by elimination of SpyCIM1. The presence of SpyCIM1 alters global transcription patterns in SF370SmR. RNA sequencing (RNA-Seq) demonstrated that loss of SpyCIM1 in the SpyCIM1 deletion mutant, CEM1∆4, impacted the expression of many genes both in early exponential phase, when the SpyCIM1 is episomal, as well as at the onset of stationary phase, when SpyCIM1 has reintegrated into mutL. Among these changes, the up regulation of the genes for the antiphagocytic M protein (emm1), streptolysin O (slo), capsule operon (hasABC), and streptococcal pyrogenic exotoxin (speB), are particularly notable. The expression pattern of the DNA mismatch repair (MMR) operon confirmed our earlier observations that these genes are transcribed in early exponential phase but silenced as stationary phase is approached. The direct role of SpyCIM1 in causing the mutator phenotype is confirmed by these studies, and its influence upon the biology of S. pyogenes was found to impact multiple genes in addition to the MMR operon. We suggest that such chromosomal islands are a remarkable evolutionary adaptation to promote the survival of its S. pyogenes host cell in changing environments.

Project description:In this report we demonstrated that under aerobic conditions, Mycobacterium bovis BCG expressing an hsp60-driven second copy of the hypoxia-related transcriptional regulator DosR increased 2-fold or greater the expression of 38 out of the 48 genes belonging to the DosR regulon, including the latency antigens Rv1733c, Rv2029, Rv2627, and Rv2628. Expression of DosR under these conditions slightly delayed in vitro growth, but did not promote a non-replicating state as opposed to microaerobic and hypoxic adaptation. Our results suggest BCG producing DosR can be cultured under standard in vitro conditions, allowing evaluation of this strain as a latency-specific vaccine candidate. Set of arrays that are part of repeated experiments

Project description:In this report we demonstrated that under aerobic conditions, Mycobacterium bovis BCG expressing an hsp60-driven second copy of the hypoxia-related transcriptional regulator DosR increased 2-fold or greater the expression of 38 out of the 48 genes belonging to the DosR regulon, including the latency antigens Rv1733c, Rv2029, Rv2627, and Rv2628. Expression of DosR under these conditions slightly delayed in vitro growth, but did not promote a non-replicating state as opposed to microaerobic and hypoxic adaptation. Our results suggest BCG producing DosR can be cultured under standard in vitro conditions, allowing evaluation of this strain as a latency-specific vaccine candidate.

Project description:To further determine the gene expression profile of InbR, encoded by Rv0275c in Mycobacterium tuberculosis, whole genome microarray analysises were applied to inbR-overexpressing strain and wild type Mycobacterium bovis BCG. Comparison of the gene expression pattern of logarithmic growth phase wild-type M. bovis BCG and that of the inbR-overexpression strain revealed a total of 142 genes that were significantly up-regulated (2-fold to 187-fold, p < 0.05) and 200 that were down-regulated (2-fold to 113-fold, p < 0.05). Strikingly, most of the genes in the regulon were predicted to function as molecular chaperones, heat shock proteins, or transcription factors.

Project description:Efflux pumps are a significant challenge for the development of new antibacterial agents. Overcoming efflux requires an in-depth understanding of efflux pump functions, substrate specificities, and the development of inhibitors. However, the complexities of drug efflux networks have limited such studies. To address these challenges, we report the generation of Efflux KnockOut-35 (EKO-35), a highly susceptible Escherichia coli strain lacking 35 efflux pumps. We demonstrate the utility of this strain by constructing an efflux platform consisting of strains individually expressing genes encoding efflux pumps forming tripartite complexes with the outer membrane channel TolC. This platform was profiled against a curated diverse compound collection, which enabled us to define physicochemical properties that contribute to transport. We also show the E. coli drug efflux network is conditionally essential for growth, and that the platform can be used to investigate efflux pump inhibitor specificities and also efflux pump interplay. We believe EKO-35 and the efflux platform will have widespread application for the study of drug efflux.

Project description:The humoral immune response of Galleria mellonella exposed to Mycobacterium bovis BCG (vaccine strain), 1x107 CFU (10 ul inoculum) were injected into the larvae. For low dose BCG challenge, 1x105 CFU (10 ul) were injected. For larval challenge with Actinobacillus pleuropneumoniae (APP), ~1.5x106 CFU (10 ul) were injected. APP were only challenged at this single dose. For larval challenge with Control (0h) were included. APP and low dose (1x105 CFU) BCG were sampled only at 48 h post infection.

Project description:Genome-wide identification of transcription factor (TF) binding sites in the genome of the fission yeast Schizosaccharomyces pombe. The ChIP-nexus method was used. TFs included were: Cbf11-TAP and Cbf12-TAP (and their DBM mutants with impaired DNA binding), TAP-Mga2, and Fkh2-TAP (as an irrelevant control TF). IPs from an untagged WT strain were also analyzed. Cbf11-related IPs were performed from exponential cultures, while Cbf12-related IPs were performed from stationary cultures. YES complex medium was used for all cultivations.