Project description:Acetoanaerobium noterae overview

Project description:Acetoanaerobium noterae DSL Genome sequencing and assembly

Project description:Acetoanaerobium noterae strain:DSL2 Genome sequencing and assembly

Project description:Acetoanaerobium noterae strain:ATCC 35199 Genome sequencing

Project description:Acetoanaerobium noterae ATCC 35199

Project description:Acetoanaerobium pronyense DSM 27512 genome sequencing

Project description:Staphylococcus aureus (S. aureus) is a known pathogen able to infect humans and animals. Human S. aureus isolates are often associated with carriage of Sa3int prophages combined with loss of beta-hemolysin production due to gene disruption, whereas animal isolates are positive for beta-hemolysin associated with absence of Sa3int prophages. Sa3int prophages are known to contribute to staphylococcal fitness and virulence in human host by providing human-specific virulence factors encoded on the prophage genome. Strain-specific differences in regard to phage transfer, lysogenization and induction are attributable to yet unknown staphylococcal factors specifically influencing prophage gene expression. In this work we used tagRNA-sequencing approach to specifically search for these unknown host factors and differences in prophage gene expression. For this purpose, we established a workflow revealing the first direct comparison for differential gene expression analysis on two distinct single-lysogenic S. aureus isolates. Further, global gene expression patterns were investigated in two S. aureus isolates upon mitomycin C treatment and compared to uninduced conditions. This provides new insights into the tightly linked host-phage interaction network.

Project description:The prophage and RF DNA of SW1 were removed from WP3 to construct the phage-free strain. The two strains were cultured at 4°C and the transcriptional profiles were compared.

Project description:The prophage and RF DNA of SW1 were removed from WP3 to construct the phage-free strain. The two strains were cultured at 20MPa and 4°C and the transcriptional profiles were compared.

Project description:Terrisporobacter petrolearius prophage sequencing