Project description:Transcriptome analysis of M. catarrhalis RH4 predicted coding sequences and clustered regularly interspaced short palindromic repeats (CRISPRs) regions. The results described in this study are further discussed in De Vries, S.P.W., van Hijum, S.A.F.T., Schueler, W., Riesbeck, K., Hays, J.P., Hermans, P.W.M., Bootsma, H.J.; Genome analysis of Moraxella catarrhalis strain RH4: a human respiratory tract pathogen; Journal of Bacteriology
Project description:Transcriptome analysis of M. catarrhalis RH4 predicted coding sequences and clustered regularly interspaced short palindromic repeats (CRISPRs) regions. The results described in this study are further discussed in De Vries, S.P.W., van Hijum, S.A.F.T., Schueler, W., Riesbeck, K., Hays, J.P., Hermans, P.W.M., Bootsma, H.J.; Genome analysis of Moraxella catarrhalis strain RH4: a human respiratory tract pathogen; Journal of Bacteriology Total RNA from lag phase (OD620 = 0.2-0.3), exponential phase (OD620 = 1.2-1.4), or stationary phase (OD620 = 2.0-2.2) bacteria grown in triplicate in BHI medium, and hybridized in duplicate on 4x72K custom design Nimblegen arrays
Project description:Comparison of the gene expression profile of Moraxella catarrhalis grown in the presence of 20% pooled human sputum in chemically-defined medium relative to Moraxella catarrhalis grown in chemically-defined medium alone.
Project description:During the course of infection, respiratory pathogens like Moraxella catarrhalis needs to adhere to epithelial cells of different host niches such as the nasopharynx and lungs. Consequently, efficient adhesion to epithelial cells is considered an important virulence trait of M. catarrhalis. We examined the interaction between human pharyngeal epithelial Detroit 562 cells and M. catarrhalis BBH18 during adherence using a combination of Tn-seq, a genome-wide negative selection screenings technology, and expression profiling of both host and pathogen. The results described in this study are further discussed in Stefan P.W. de Vries, Marc J. Eleveld, Peter W.M. Hermans, Hester J. Bootsma: Characterization of the molecular interplay between Moraxella catarrhalis and human respiratory tract epithelial cells, submitted.
Project description:Comparison of the gene expression profile of Moraxella catarrhalis grown in the presence of 20% pooled human sputum in chemically-defined medium relative to Moraxella catarrhalis grown in chemically-defined medium alone. Moraxella catarrhalis ATCC43617 was grown to mid-logarithmic phase either in the presence of 20% pooled human sputum in chemically-defined medium or in chemically-defined medium alone. Total RNA was extracted from bacterial cells exposed to each of these conditions and cDNA was generated for CyDye labelling. 3 biologic replicates were generated and each replicate underwent a dye swap (total of 6 experimental data collections). The gene expression profile reported is that of Moraxella catarrhalis grown in the presence of pooled human sputum in a chemically-defined medium relative to Moraxella catarrhalis grown only in the presence of the chemically-defined medium.
Project description:During the course of infection, respiratory pathogens like Moraxella catarrhalis needs to adhere to epithelial cells of different host niches such as the nasopharynx and lungs. Consequently, efficient adhesion to epithelial cells is considered an important virulence trait of M. catarrhalis. We examined the interaction between human pharyngeal epithelial Detroit 562 cells and M. catarrhalis BBH18 during adherence using a combination of Tn-seq, a genome-wide negative selection screenings technology, and expression profiling of both host and pathogen. The results described in this study are further discussed in Stefan P.W. de Vries, Marc J. Eleveld, Peter W.M. Hermans, Hester J. Bootsma: Characterization of the molecular interplay between Moraxella catarrhalis and human respiratory tract epithelial cells, submitted.
