textjournal article
A Biosynthetic Route to Photoclick Chemistry on Proteins
Abstract
Light-induced chemical reactions exist in nature, regulating many important cellular and organismal functions, e.g., photosensing in prokaryotes and vision formation in mammals. Here, we report the genetic incorporation of a photoreactive unnatural amino acid, p-(2-tetrazole)phenylalanine (p-Tpa), into myoglobin site-specifically in E. coli by evolving an orthogonal tRNA/aminoacyl-tRNA synthetase pair and the use of p-Tpa as a bioorthogonal chemical “handle” for fluorescent labeling of p-Tpa-encoded myoglobin via the photoclick reaction. Moreover, we elucidated the structural basis for the biosynthetic incorporation of p-Tpa into proteins by solving the X-ray structure of p-Tpa-specific aminoacyl-tRNA synthetase in complex with p-Tpa. The genetic encoding of this photoreactive amino acid should make it possible in the future to photoregulate protein function in living systems- Text
- Journal contribution
- Biochemistry
- Microbiology
- Cell Biology
- Genetics
- Molecular Biology
- Evolutionary Biology
- Inorganic Chemistry
- Plant Biology
- Virology
- Chemical Sciences not elsewhere classified
- encoding
- photoregulate protein function
- coli
- Biosynthetic Route
- acid
- myoglobin
- biosynthetic incorporation
- basis
- prokaryote
- orthogonal
- future
- chemical
- organismal functions
- nature
- bioorthogonal
- vision formation
- photoclick reaction
- Photoclick Chemistry
- e.g
- photoreactive
- tRNA
- synthetase
- photosensing
- mammal
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Last time updated on 16/03/2018
This paper was published in The Francis Crick Institute.
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