Project description:BF high-throughput sequencing data

Project description:Interventions: Case vs control:No Primary outcome(s): High-throughput sequencing Study Design: Case-Control study

Project description:High-throughput Sequencing Data

Project description:High-throughput sequencing data

Project description:Interventions: left hemicolectomy:None;right hemicolectomy:None;sigmoid resection:None;radical rectal cancer:None;low rectal resection with prophylactic ileostomy:None Primary outcome(s): Fecal high-throughput sequencing;Fecal Metabolomics;immunomics Study Design: Factorial

Project description:Gut-educated IgA-secreting plasma cells that disseminate beyond the mucosa and into systemic tissues can help prevent disease in several contexts. Here we show, the commensal bacteria Bacteroides fragilis (Bf), is an efficient inducer of systemic IgA responses. The generation of bone marrow IgA plasma cells and high levels of serum IgA specific to Bf requires robust intestinal colonization. Bf-specific IgA responses were severely diminished in mice lacking Peyer’s patches, but not mice lacking a cecal patch. Colonization resulted in few changes in the host transcriptional profile in the gut, suggesting a commensal relationship. High levels of Bf-specific serum IgA, but not IgG, provided protection from peritoneal abscess formation in a bowel perforation model of Bf dissemination. These findings demonstrate a critical role for bacterial colonization and Peyer’s patches in the induction of robust systemic IgA responses that confer protection from bacterial dissemination originating from the gut.

Project description:High-throughput sequencing data of Patellogastropoda

Project description:Halocynthia roretzi high-throughput sequencing data

Project description:RBS high-throughput sequencing raw data

Project description:16S high-throughput sequencing raw data