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Encoding multiple unnatural amino acids via evolution of a quadruplet-decoding ribosome

Neumann, Heinz and Wang, Kaihang and Davis, Lloyd and Garcia-Alai, Maria and Chin, Jason W. (2010) Encoding multiple unnatural amino acids via evolution of a quadruplet-decoding ribosome. Nature, 464 (7287). pp. 441-444. ISSN 0028-0836. doi:10.1038/nature08817.

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The in vivo, genetically programmed incorporation of designer amino acids allows the properties of proteins to be tailored with molecular precision. The Methanococcus jannaschii tyrosyl-transfer-RNA synthetase–tRNA_(CUA) (MjTyrRS–tRNA_(CUA)) and the Methanosarcina barkeri pyrrolysyl-tRNA synthetase–tRNA_(CUA) (MbPylRS–tRNA_(CUA)) orthogonal pairs have been evolved to incorporate a range of unnatural amino acids in response to the amber codon in Escherichia coli. However, the potential of synthetic genetic code expansion is generally limited to the low efficiency incorporation of a single type of unnatural amino acid at a time, because every triplet codon in the universal genetic code is used in encoding the synthesis of the proteome. To encode efficiently many distinct unnatural amino acids into proteins we require blank codons and mutually orthogonal aminoacyl-tRNA synthetase–tRNA pairs that recognize unnatural amino acids and decode the new codons. Here we synthetically evolve an orthogonal ribosome (ribo-Q1) that efficiently decodes a series of quadruplet codons and the amber codon, providing several blank codons on an orthogonal messenger RNA, which it specifically translates. By creating mutually orthogonal aminoacyl-tRNA synthetase–tRNA pairs and combining them with ribo-Q1 we direct the incorporation of distinct unnatural amino acids in response to two of the new blank codons on the orthogonal mRNA. Using this code, we genetically direct the formation of a specific, redox-insensitive, nanoscale protein cross-link by the bio-orthogonal cycloaddition of encoded azide- and alkyne-containing amino acids10. Because the synthetase–tRNA pairs used have been evolved to incorporate numerous unnatural amino acids, it will be possible to encode more than 200 unnatural amino acid combinations using this approach. As ribo-Q1 independently decodes a series of quadruplet codons, this work provides foundational technologies for the encoded synthesis and synthetic evolution of unnatural polymers in cells.

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Wang, Kaihang0000-0001-7657-8755
Chin, Jason W.0000-0003-1219-4757
Additional Information:© 2010 Macmillan Publishers Limited. Received 26 June 2009; Accepted 07 January 2010; Published 14 February 2010. We are grateful to P. B. Kapadnis for synthesizing CAK and to W. An for assistance with some experiments. J.W.C. is grateful to the ERC and the MRC for funding. K.W. is grateful to Trinity College, Cambridge for a fellowship. Author Contributions K.W., H.N., L.D. and J.W.C. planned the experiments. K.W. selected and characterized ribo-Q, with help from L.D. K.W. and L.D. characterized amber and quadruplet incorporation by protein expression and mass spectrometry. L.D. and M.G.-A. performed protein expression experiments. H.N. demonstrated the mutual orthogonality of synthetase tRNA pairs, evolved synthetases, and characterized the double incorporation and protein cyclization, with help from M.G.-A. H.N., K.W., L.D. and J.W.C. analysed the data and wrote the paper.
Funding AgencyGrant Number
European Research Council (ERC)UNSPECIFIED
Medical Research Council (UK)UNSPECIFIED
Trinity CollegeUNSPECIFIED
Issue or Number:7287
Record Number:CaltechAUTHORS:20180627-081039639
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Usage Policy:No commercial reproduction, distribution, display or performance rights in this work are provided.
ID Code:87371
Deposited By: Tony Diaz
Deposited On:27 Jun 2018 16:22
Last Modified:15 Nov 2021 20:47

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