Project description:Gene expression analysis of neural crest in zebrafish to identify novel downstream targets of Twist1

Project description:Multi-functional capture reagents reported here enable robust identification of metabolically-tagged myristoylated proteomes with unprecedented confidence resulting from the combination of chemical probe-based enrichment, and release and direct detection of lipid-modified peptides by MS. Whilst capture reagents containing enzymatically cleavable linkers have been previously reported they typically require an extra proteolytic step and their capacity to enable detection of lipidated peptides has not been demonstrated. Herein, we report the largest database (85 counts) of experimentally validated human proteins that are myristoylated at an endogenous level in living cells. Furthermore, we demonstrate the first profile of myristoylation in a living multicellular organism and the confident identification of over 50 novel targets. Importantly, this is also the first example of analysis of any protein lipidation event during development. Our methodology is novel in analytical/chemical approach, and provides quantitative and dynamic information. This submission concerns myristoylated proteomes of zebrafish origin.

Project description:Identification of small non-coding RNAs in zebrafish

Project description:Identification of Hoxb1b regulated genes in zebrafish embryos

Project description:IDENTIFICATION OF ADULT ZEBRAFISH CONE PHOTORECEPTOR-ENRICHED GENES

Project description:mafba is a downstream transcriptional effector of Vegfc signaling essential for embryonic lymphangiogenesis in zebrafish.

Project description:Molecular targets of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) within the zebrafish ovary

Project description:Retinoic acid signaling targets within the embryonic zebrafish eye during photoreceptor differentiation

Project description:Identification of microRNAs differentially expressed in zebrafish larvae following immunostimulation

Project description:Comparative Genomics Identifies Gene Targets for Retinoic Acid in the Embryonic Zebrafish Hearts