半胱氨酸
氨基酸
生物化学
酶
遗传密码
氨酰tRNA合成酶
化学
转移RNA
生物
分子生物学
基因
核糖核酸
作者
Rajendra Uprety,Ji Luo,Jihe Liu,Yuta Naro,Subhas Samanta,Alexander Deiters
出处
期刊:ChemBioChem
[Wiley]
日期:2014-06-27
卷期号:15 (12): 1793-1799
被引量:65
标识
DOI:10.1002/cbic.201400073
摘要
Abstract We report the genetic incorporation of caged cysteine and caged homocysteine into proteins in bacterial and mammalian cells. The genetic code of these cells was expanded with an engineered pyrrolysine tRNA/tRNA synthetase pair that accepts both light‐activatable amino acids as substrates. Incorporation was validated by reporter assays, western blots, and mass spectrometry, and differences in incorporation efficiency were explained by molecular modeling of synthetase–amino acid interactions. As a proof‐of‐principle application, the genetic replacement of an active‐site cysteine residue with a caged cysteine residue in Renilla luciferase led to a complete loss of enzyme activity; however, upon brief exposure to UV light, a >150‐fold increase in enzymatic activity was observed, thus showcasing the applicability of the caged cysteine in live human cells. A simultaneously conducted genetic replacement with homocysteine yielded an enzyme with greatly reduced activity, thereby demonstrating the precise probing of a protein active site. These discoveries provide a new tool for the optochemical control of protein function in mammalian cells and expand the set of genetically encoded unnatural amino acids.
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