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Project description:Purpose: We recently reported that isogenic deletion of lysine decarboxylase (ΔcadA/SP_0916), an enzyme that catalyzes the biosynthesis of polyamine cadaverine in Streptococcus pneumoniae TIGR4 results in loss of capsular polysaccharide (CPS), which constitutes a novel mechanism of regulation of CPS. Here, we conducted RNA-Seq to elucidate molecular mechanisms of CPS regulation in polyamine synthesis impaired pneumococci. Result: Significantly differentially expressed genes in ΔcadA represent pneumococcal pathways involved in the biosynthesis of precursors for CPS and peptidoglycan. Conclusion: We establish a possible link and interchange between two cellular processes such as high energy demanding capsule production and oxidative stress responses in polyamine synthesis impaired pneumococci (ΔcadA).

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Project description:The objective of the study is to obtain a high resolution transcription map of S. pneumoniae genome and make it available through a genome browser. The study also help to identify gene expression pattern, presence of small RNAs, Antisense expression and operon structure.

Project description:Streptococcus pneumoniae (pneumococcus) is a leading human pathogen that can cause serious localized and invasive diseases. Pneumococci can undergo a spontaneous and reversible phase variation that is reflected in colony opacity, which allows the population to adapt to different host environments. Generally, transparent variants are adapted for nasopharyngeal colonization whereas opaque variants are associated with invasive disease. In recent work, colony phase variation was shown to occur by means of recombination events to generate multiple alleles of the hsdS targeting domain of a DNA methylase complex, which mediates epigenetic changes in gene expression. A panel of isogenic strains were created in the well-studied S. pneumoniae TIGR4 background that are “locked” in the transparent (n=4) or opaque (n=2) colony phenotype. The strains had significant differences in colony size which were stable over multiple passages in vitro and in vivo. While there were no significant differences in adherence for the phase-locked mutant strains to immortalized epithelial cells, biofilm formation and viability was reduced for opaque variants in static assays. Nasopharyngeal colonization was stable for all strains, but the mortality rate differed between them. Transcript profiling by RNA-seq analyses revealed that expression of certain virulence factors were increased in a phase-specific manner. As epigenetic regulation of phase variation (often referred to as phasevarion) is emerging as a common theme for mucosal pathogens, these studies serve as a model for future studies of host-pathogen interactions.

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Project description:Role of Manganese Efflux for Signaling and Pathogenesis in Streptococcus pneumonia

Project description:A fine scale phenotype-genotype virulence map of a bacterial pathogen