在大肠杆菌中通过光化学伪装实现氟酪氨酸在蛋白质上的定点掺入。

Site-specific incorporation of fluorotyrosines into proteins in Escherichia coli by photochemical disguise.

机构信息

Department of Chemistry and Biochemistry, University of Maryland, College Park, Maryland 20742, USA.

出版信息

Biochemistry. 2010 Mar 2;49(8):1557-9. doi: 10.1021/bi100013s.

PMID:20136096

Abstract

Fluorinated analogues of tyrosine can be used to manipulate the electronic environments of protein active sites. The ability to selectively mutate tyrosine residues to fluorotyrosines is limited, however, and can currently only be achieved through the total synthesis of proteins. As a general solution to this problem, we genetically encoded the unnatural amino acids o-nitrobenzyl-2-fluorotyrosine, -3-fluorotyrosine, and -2,6-difluorotyrosine in Escherichia coli. These amino acids are disguised from recognition by the endogenous protein biosynthetic machinery, effectively preventing global incorporation of fluorotyrosine into proteins.

摘要

可以使用酪氨酸的氟化类似物来操纵蛋白质活性部位的电子环境。然而，选择性地将酪氨酸残基突变为氟代酪氨酸的能力有限，目前只能通过蛋白质的全合成来实现。作为解决此问题的一般方法，我们在大肠杆菌中遗传编码了非天然氨基酸邻硝基苄基-2-氟代酪氨酸、-3-氟代酪氨酸和-2,6-二氟代酪氨酸。这些氨基酸被内源性蛋白质生物合成机制所识别，有效地阻止了氟代酪氨酸在蛋白质中的整体掺入。

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在大肠杆菌中通过光化学伪装实现氟酪氨酸在蛋白质上的定点掺入。

Site-specific incorporation of fluorotyrosines into proteins in Escherichia coli by photochemical disguise.

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在大肠杆菌中通过光化学伪装实现氟酪氨酸在蛋白质上的定点掺入。

Site-specific incorporation of fluorotyrosines into proteins in Escherichia coli by photochemical disguise.

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出版信息

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