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Genetic Encoding of Phosphorylated Amino Acids into Proteins

Michael Allen, P. Andrew Karplus, Ryan A. Mehl, Richard B. Cooley

2024Chemical Reviews16 citationsDOIOpen Access PDF

Abstract

Reversible phosphorylation is a fundamental mechanism for controlling protein function. Despite the critical roles phosphorylated proteins play in physiology and disease, our ability to study individual phospho-proteoforms has been hindered by a lack of versatile methods to efficiently generate homogeneous proteins with site-specific phosphoamino acids or with functional mimics that are resistant to phosphatases. Genetic code expansion (GCE) is emerging as a transformative approach to tackle this challenge, allowing direct incorporation of phosphoamino acids into proteins during translation in response to amber stop codons. This genetic programming of phospho-protein synthesis eliminates the reliance on kinase-based or chemical semisynthesis approaches, making it broadly applicable to diverse phospho-proteoforms. In this comprehensive review, we provide a brief introduction to GCE and trace the development of existing GCE technologies for installing phosphoserine, phosphothreonine, phosphotyrosine, and their mimics, discussing both their advantages as well as their limitations. While some of the technologies are still early in their development, others are already robust enough to greatly expand the range of biologically relevant questions that can be addressed. We highlight new discoveries enabled by these GCE approaches, provide practical considerations for the application of technologies by non-GCE experts, and also identify avenues ripe for further development.

Topics & Concepts

PhosphoserineComputational biologySemisynthesisChemistryPhosphorylationAmino acidGenetic codeProtein phosphorylationBiochemistryComputer scienceProtein kinase ABiologySerineRNA and protein synthesis mechanismsCRISPR and Genetic EngineeringMonoclonal and Polyclonal Antibodies Research
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