Abstract

Amber suppression has been widely used to incorporate unnatural amino acids (UNAAs) with unique structures or functional side-chain groups into specific sites of the target protein, which expands the scope of protein-coding chemistry. However, this traditional strategy does not allow multiple-site incorporation of different UNAAs into a single protein, which limits the development of unnatural proteins. To address this challenge, the suppression method using multiple termination codons (TAG, TAA or TGA) was proposed, and cell-free unnatural protein synthesis (CFUPS) system was employed. By the analysis of incorporating 3 different UNAAs (p-propargyloxy-l-phenylalanine, p-azyl-phenylalanine and L-4-Iodophenylalanine) and mass spectrometry, the simultaneous usage of the codons TAG and TAA were suggested for better multiple-site UNAA incorporation. The CFUPS conditions were further optimized for better UNAA incorporation efficiency, including the orthogonal translation system (OTS) components, magnesium ions, and the redox environment. This study established a CFUPS approach based on multiple termination codon suppression to achieve efficient and precise incorporation of different types of UNAAs, thereby synthesizing unnatural proteins with novel physicochemical functions.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call