'New tools are needed to further our understanding of protein fatty acylation. Here we demonstrate that omega-azido fatty acids can be efficiently metabolized by mammalian cells and serve as selective probes to rapidly visualize N-myristoylation and S-acylation, respectively. In addition to the more sensitive detection of fatty-acylated proteins with these ... More
Lipid raft-dependent endocytosis of close homolog of adhesion molecule L1 (CHL1) promotes neuritogenesis.
AuthorsTian N, Leshchyns'ka I, Welch JH, Diakowski W, Yang H, Schachner M, Sytnyk V,
JournalJ Biol Chem
PubMed ID23144456
CHL1 plays a dual role by either promoting or inhibiting neuritogenesis. We report here that neuritogenesis-promoting ligand-dependent cell surface clustering of CHL1 induces palmitoylation and lipid raft-dependent endocytosis of CHL1. We identify ßII spectrin as a binding partner of CHL1, and we show that partial disruption of the complex between ... More
Robust fluorescent detection of protein fatty-acylation with chemical reporters.
AuthorsCharron G, Zhang MM, Yount JS, Wilson J, Raghavan AS, Shamir E, Hang HC,
JournalJ Am Chem Soc
PubMed ID19281244
Fatty-acylation of proteins in eukaryotes is associated with many fundamental cellular processes but has been challenging to study due to limited tools for rapid and robust detection of protein fatty-acylation in cells. The development of azido-fatty acids enabled the nonradioactive detection of fatty-acylated proteins in mammalian cells using the Staudinger ... More