Project description:Host and pathogen interaction: time course [zebrafish]

Project description:Wound healing process after TBI in zebrafish: time course (zebrafish)

Project description:Transcriptional Profiling of Zebrafish Embryonic Developmental Time Course

Project description:Wound healing process after ventricular resection in zebrafish: time course (zebrafish)

Project description:Time course experiment of 17β-estradiol (E2) treatment in the zebrafish

Project description:Transcriptome dynamics in early zebrafish embryogenesis determined by high-resolution time course analysis

Project description:Macrophage-specific gene functions in Spi1-directed innate immunity

Project description:Danio rerio high resolution developmental transcriptomic time-course

Project description:Trancriptome Kinetics of Arsenic-induced Adaptive Response in Zebrafish Liver.

Project description:Cyberlindnera jadinii yeast is a potential sustainable novel feed ingredient for aquaculture industries. Yeasts contain bio-active components and proteins such as beta-glucans, mannans, nucleic acids and proteins that can enhance fish immunity against the disease. In our study, we focused on the characterization of intestinal immunoregulatory pathways in zebrafish (Danio rerio) by quantifying the intestine proteins with isobaric tags for relative and absolute quantitation (iTRAQ) and 2D LC-MS/MS approach. Zebrafish were fed either a control diet (C) or a diet supplemented with autolyzed C. jadinii (ACJ). The KEGG pathways analysis revealed that compared with the control diet, the ACJ yeast diet induced an increased abundance of proteins related to arginine and proline metabolism, phagosome, C-lectin receptor signalling pathway, ribosome pathway and PPAR signalling pathway, which can modulate and enhance the innate response of zebrafish. Moreover, fish fed ACJ yeast diet also showed decreased abundance of proteins associated with inflammatory pathways including apoptosis, necroptosis and ferroptosis pathways. These findings support a mobilization of the innate immune response and a control of inflammatory-related pathways in the intestine of zebrafish. Our findings in the well annotated proteome of zebrafish enabled a detailed investigation of intestinal responses and provide insight into the health-beneficial effects of the yeast species C. jadinii relevant for aquaculture species.