A Facile Protocol to Generate Site-Specifically Acetylated Proteins in Escherichia Coli

by Venkat, S.; Gregory, C.; Meng, K. X.; Gan, Q. L.; Fan, C. G.

Post-translational modifications that occur at specific positions of proteins have been shown to play important roles in a variety of cellular processes. Among them, reversible lysine acetylation is one of the most widely distributed in all domains of life. Although numerous mass spectrometry-based acetylome studies have been performed, further characterization of these putative acetylation targets has been limited. One possible reason is that it is difficult to generate purely acetylated proteins at desired positions by most classic biochemical approaches. To overcome this challenge, the genetic code expansion technique has been applied to use the pair of an engineered pyrrolysyl-tRNA synthetase variant, and its cognate tRNA from Methanosarcinaceae species, to direct the cotranslational incorporation of acetyllysine at the specific site in the protein of interest. After first application in the study of histone acetylation, this approach has facilitated acetylation studies on a variety of proteins. In this work, we demonstrated a facile protocol to produce site-specifically acetylated proteins by using the model bacterium Escherichia coli as the host. Malate dehydrogenase was used as a demonstration example in this work.

Journal
JOVE-Journal of Visualized Experiments
Issue
130
Year
2017
URL
https://dx.doi.org/10.3791/57061
ISBN/ISSN
1940-087X
DOI
10.3791/57061