Chemogenetic and optogenetic control of post-translational modifications through genetic code expansion

Abstract

Post-translational modifications (PTMs) of proteins extensively diversify the biological information flow from the genome to the proteome and thus have profound pathophysiological implications. Precise dissection of the regulatory networks of PTMs benefits from the ability to achieve conditional control through external optogenetic or chemogenetic triggers. Genetic code expansion provides a unique solution by allowing for site-specific installation of functionally masked unnatural amino acids (UAAs) into proteins, such as enzymes and enzyme substrates, rendering them inert until rapid activation through exposure to light or small molecules. Here, we summarize the most recent advances harnessing this methodology to study various forms of PTMs, as well as generalizable approaches to externally control nodes-of-interest in PTM networks.

Keywords: Genetic code expansion; Post-translational modification; Protein SUMOylation; Protein methylation; Protein phosphorylation; Protein ubiquitination; Unnatural amino acid.