Project description:Mycobacterium marinum strain:ATCC 927 Genome sequencing

Project description:Differential RNA-Seq data for Vibrio campbellii BB120 (ATCC BAA-1116, previously designated as Vibrio harveyi)

Project description:WhiB6 Differentially Regulates ESX-1 and Dos Regulon to Modulate Transition between Resuscitation and Dormancy during Mycobacterial Infection

Project description:The mechanisms of action of compound 8 in Mycobacterium marinum although it inhibits the secretion of the bacteria. In this experiment, we aim to investigated the effect of compound 8 on the global gene expression of Mycobacterium marinum

Project description:We identify a putative link between miR-126 knockdown and neuroactive ligand and notch signalling pathways in uninfected and Mycobacterium marinum infected zebrafish embryos.

Project description:Mycobacteria infect macrophages that aggregate with additional macrophages and lymphocytes to form granulomas. We have used a functional genomics approach to identify immune response genes expressed during granuloma formation in Mycobacterium marinum-infected transparent zebrafish larvae where individual infection steps can be viewed in real time. We assessed RNA expression profiles from zebrafish larvae that were either infected with Mycobacterium marinum or mock-infected. Zebrafish infections were performed at 1 day post-fertilization (dpf), and samples were derived from pools of 6dpf zebrafish larvae. Keywords: host response to infection

Project description:Mycobacteria infect macrophages that aggregate with additional macrophages and lymphocytes to form granulomas. We have used a functional genomics approach to identify immune response genes expressed during granuloma formation in Mycobacterium marinum-infected transparent zebrafish larvae where individual infection steps can be viewed in real time. We assessed RNA expression profiles from zebrafish larvae that were either infected with Mycobacterium marinum, mock-infected, or uninfected. Zebrafish infections were performed at 1 day post-fertilization (dpf), and samples were derived from pools of 6dpf zebrafish larvae. Keywords: host response to infection

Project description:Mycobacterium marinum infection in zebrafish (Danio rerio) has been widely used to study human tuberculosis because the bacteria causing these two diseases are close relatives. We studied the zebrafish immune response to M. marinum infection through a whole-genome level transcriptome analysis. As expected based on the literature, our results showed the induction of genes coding proteins associated to immune signaling, cell migration and acute phase response indicating that the immune response to M. marinum infection in zebrafish is similar than the response to tuberculosis causing Mycobacterium tuberculosis in humans.

Project description:Related surrogate species are often used to study the molecular basis of pathogenicity of a pathogen on the basis of a shared set of biological features generally attributable to a shared core genome consisting of orthologous genes. An important and understudied aspect, however, is the extent to which regulatory features affecting the expression of such shared genes are present in both species. Here we report on an analysis of whole transcriptome maps for an important member of the TB complex Mycobacterium bovis and a closely related model organism for studying mycobacterial pathogenicity Mycobacterium marinum. Predict transcription start site

Project description:Related surrogate species are often used to study the molecular basis of pathogenicity of a pathogen on the basis of a shared set of biological features generally attributable to a shared core genome consisting of orthologous genes. An important and understudied aspect, however, is the extent to which regulatory features affecting the expression of such shared genes are present in both species. Here we report on an analysis of whole transcriptome maps for an important member of the TB complex Mycobacterium bovis and a closely related model organism for studying mycobacterial pathogenicity Mycobacterium marinum.