Litcius/Paper detail

Cellular and Biophysical Applications of Genetic Code Expansion

Han Yi, Seungeun Lee, Kyungdeok Seo, Hyeongjo Kim, Minah Kim, Hyun Soo Lee

2024Chemical Reviews26 citationsDOI

Abstract

Despite their diverse functions, proteins are inherently constructed from a limited set of building blocks. These compositional constraints pose significant challenges to protein research and its practical applications. Strategically manipulating the cellular protein synthesis system to incorporate novel building blocks has emerged as a critical approach for overcoming these constraints in protein research and application. In the past two decades, the field of genetic code expansion (GCE) has achieved significant advancements, enabling the integration of numerous novel functionalities into proteins across a variety of organisms. This technological evolution has paved the way for the extensive application of genetic code expansion across multiple domains, including protein imaging, the introduction of probes for protein research, analysis of protein-protein interactions, spatiotemporal control of protein function, exploration of proteome changes induced by external stimuli, and the synthesis of proteins endowed with novel functions. In this comprehensive Review, we aim to provide an overview of cellular and biophysical applications that have employed GCE technology over the past two decades.

Topics & Concepts

ChemistryGenetic codeCode (set theory)Computational biologyNanotechnologyProgramming languageDNABiochemistryMaterials scienceSet (abstract data type)BiologyComputer scienceRNA and protein synthesis mechanismsGenomics and Phylogenetic StudiesBacterial Genetics and Biotechnology