Project description:Comparison of expression data between control and Bdh2 morphant zebrafish embryos, as well as Bdh2 morphant zebrafish embryos expressing ectopic Bdh2

Project description:Comparison of expression data between control, Atg7, Bdh2, Atg7 and Bdh2 dual morphant zebrafish embryos

Project description:Expression data from zebrafish embryos

Project description:Expression data from zebrafish embryos

Project description:Expression data from early zebrafish embryos

Project description:MeHg exposure zebrafish embryos vs control

Project description:Identification of differentially-expressed genes between FoxH1 morpholino and control in zebrafish embryos.

Project description:Expression data of kidney multiciliated cells from zebrafish embryos

Project description:Zebrafish (Danio rerio) model system have used widespread vertebrate investigations for genetic and cell biological analyses, and is suitable for small molecular screens such as chemical, toxicity and drug in order to use for human diseases and drug discovery . Recently, These powerful zebrafish model increasingly apply to human metabolic disease such as obesity and diabetes and toxicology. Despite a lot of advantages, proteomics research at zebrafish has received little interest in comparison with genetic and biological research using histology and in situ hybridization. Protein lysine acetylation is one of the most known post-translational modifications with dynamic and reversibly controlled by lysine acetyltransferase such as histone acetyltransferases and lysine deacetylase such as histone deacetylases and sirtuins family.Also, during the past year, global lysine acetylome studies using MS-based proteomics approach was in diverse species such as human, mouse, E. coli, Yeast and plants. Based on global acetylome data, our understanding of the roles of lysine acetylation in various cellular processes has increased. . The aim of this study was to identify Lysine acetylation in zebrafish embryos and determine the homology from Human at modified site level. Here we showed the global lysine acetylation study in Zebrafish embryos using MS-based zebrafish embryos.

Project description:Zebrafish embryos: hdac1 Morphants vs Standard control morphants