利用天然和非天然碱基对系统进行遗传密码工程，用于将非标准氨基酸位点特异性掺入蛋白质中。

Genetic Code Engineering by Natural and Unnatural Base Pair Systems for the Site-Specific Incorporation of Non-Standard Amino Acids Into Proteins.

作者信息

Kimoto Michiko, Hirao Ichiro

机构信息

Institute of Bioengineering and Bioimaging (IBB), Agency for Science, Technology and Research (ASTAR), Singapore, Singapore.

出版信息

Front Mol Biosci. 2022 May 24;9:851646. doi: 10.3389/fmolb.2022.851646. eCollection 2022.

DOI:10.3389/fmolb.2022.851646

PMID:35685243

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9171071/

Abstract

Amino acid sequences of proteins are encoded in nucleic acids composed of four letters, A, G, C, and T(U). However, this four-letter alphabet coding system limits further functionalities of proteins by the twenty letters of amino acids. If we expand the genetic code or develop alternative codes, we could create novel biological systems and biotechnologies by the site-specific incorporation of non-standard amino acids (or unnatural amino acids, unAAs) into proteins. To this end, new codons and their complementary anticodons are required for unAAs. In this review, we introduce the current status of methods to incorporate new amino acids into proteins by and translation systems, by focusing on the creation of new codon-anticodon interactions, including unnatural base pair systems for genetic alphabet expansion.

摘要

蛋白质的氨基酸序列由由四个字母A、G、C和T（U）组成的核酸编码。然而，这种四字母字母编码系统通过20种氨基酸限制了蛋白质的进一步功能。如果我们扩展遗传密码或开发替代密码，我们可以通过将非标准氨基酸（或非天然氨基酸，unAAs）位点特异性掺入蛋白质中来创建新型生物系统和生物技术。为此，unAAs需要新的密码子及其互补反密码子。在这篇综述中，我们通过专注于创建新的密码子-反密码子相互作用，包括用于遗传字母扩展的非天然碱基对系统，介绍了通过和翻译系统将新氨基酸掺入蛋白质的方法现状。

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利用天然和非天然碱基对系统进行遗传密码工程，用于将非标准氨基酸位点特异性掺入蛋白质中。

Genetic Code Engineering by Natural and Unnatural Base Pair Systems for the Site-Specific Incorporation of Non-Standard Amino Acids Into Proteins.

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