[HTML][HTML] Technologies and challenges in proteomic analysis of protein S-acylation
Journal of proteomics & bioinformatics, 2014•ncbi.nlm.nih.gov
Protein S-acylation (also called palmitoylation) is a pervasive post-translational modification
that plays critical roles in regulating protein trafficking, localization, stability, activity, and
complex formation. The past decade has witnessed tremendous advances in the study of
protein S-acylation, largely owing to the development of novel S-acylproteomics
technologies. In this review, we summarize current S-acylproteomics approaches, critically
review published S-acylproteomics studies, and envision future directions for the …
that plays critical roles in regulating protein trafficking, localization, stability, activity, and
complex formation. The past decade has witnessed tremendous advances in the study of
protein S-acylation, largely owing to the development of novel S-acylproteomics
technologies. In this review, we summarize current S-acylproteomics approaches, critically
review published S-acylproteomics studies, and envision future directions for the …
Abstract
Protein S-acylation (also called palmitoylation) is a pervasive post-translational modification that plays critical roles in regulating protein trafficking, localization, stability, activity, and complex formation. The past decade has witnessed tremendous advances in the study of protein S-acylation, largely owing to the development of novel S-acylproteomics technologies. In this review, we summarize current S-acylproteomics approaches, critically review published S-acylproteomics studies, and envision future directions for the burgeoning S-acylproteomics field. Emerging S-acylproteomics technologies promise to shed new light on this distinct post-translational modification and facilitate the discovery of new disease mechanisms, biomarkers, and therapeutic targets.
ncbi.nlm.nih.gov
