Expanding the Structural Diversity of Protein Building Blocks with Noncanonical Amino Acids Biosynthesized from Aromatic Thiols

Incorporation of structurally novel noncanonical amino acids (ncAAs) into proteins is valuable for both scientific and biomedical applications. To expand the structural diversity of available ncAAs and to reduce the burden of chemically synthesizing them, we have developed a general and simple biosy...

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Veröffentlicht in:	Angewandte Chemie International Edition 2021-04, Vol.60 (18), p.10040-10048
Hauptverfasser:	Wang, Yong, Chen, Xiaoxu, Cai, Wenkang, Tan, Linzhi, Yu, Yutong, Han, Boyang, Li, Yuxuan, Xie, Yuanzhe, Su, Yeyu, Luo, Xiaozhou, Liu, Tao
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Sprache:	eng
Schlagworte:	Amino acids aminoacyl-tRNA synthetase Antibodies Biomedical materials bioorthogonal conjugation biosynthesis Conjugation Fluorescence Genetic code genetic code expansion Green fluorescent protein Ketones noncanonical amino acids Proteins Thiols
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creator	Wang, Yong Chen, Xiaoxu Cai, Wenkang Tan, Linzhi Yu, Yutong Han, Boyang Li, Yuxuan Xie, Yuanzhe Su, Yeyu Luo, Xiaozhou Liu, Tao
description	Incorporation of structurally novel noncanonical amino acids (ncAAs) into proteins is valuable for both scientific and biomedical applications. To expand the structural diversity of available ncAAs and to reduce the burden of chemically synthesizing them, we have developed a general and simple biosynthetic method for genetically encoding novel ncAAs into recombinant proteins by feeding cells with economical commercially available or synthetically accessible aromatic thiols. We demonstrate that nearly 50 ncAAs with a diverse array of structures can be biosynthesized from these simple small‐molecule precursors by hijacking the cysteine biosynthetic enzymes, and the resulting ncAAs can subsequently be incorporated into proteins via an expanded genetic code. Moreover, we demonstrate that bioorthogonal reactive groups such as aromatic azides and aromatic ketones can be incorporated into green fluorescent protein or a therapeutic antibody with high yields, allowing for subsequent chemical conjugation. Nearly 50 novel noncanonical amino acids were efficiently biosynthesized in cells from simple aromatic thiol precursors and incorporated into proteins via genetic code expansion. Expression yields of proteins containing biosynthesized reactive amino acids were high, which allowed subsequent bioorthogonal chemical conjugation for both research and therapeutic applications.
doi_str_mv	10.1002/anie.202014540
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To expand the structural diversity of available ncAAs and to reduce the burden of chemically synthesizing them, we have developed a general and simple biosynthetic method for genetically encoding novel ncAAs into recombinant proteins by feeding cells with economical commercially available or synthetically accessible aromatic thiols. We demonstrate that nearly 50 ncAAs with a diverse array of structures can be biosynthesized from these simple small‐molecule precursors by hijacking the cysteine biosynthetic enzymes, and the resulting ncAAs can subsequently be incorporated into proteins via an expanded genetic code. Moreover, we demonstrate that bioorthogonal reactive groups such as aromatic azides and aromatic ketones can be incorporated into green fluorescent protein or a therapeutic antibody with high yields, allowing for subsequent chemical conjugation. Nearly 50 novel noncanonical amino acids were efficiently biosynthesized in cells from simple aromatic thiol precursors and incorporated into proteins via genetic code expansion. 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subjects	Amino acids aminoacyl-tRNA synthetase Antibodies Biomedical materials bioorthogonal conjugation biosynthesis Conjugation Fluorescence Genetic code genetic code expansion Green fluorescent protein Ketones noncanonical amino acids Proteins Thiols
title	Expanding the Structural Diversity of Protein Building Blocks with Noncanonical Amino Acids Biosynthesized from Aromatic Thiols
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