An expanded set of amino acid analogs for the ribosomal translation of unnatural peptides

The application of in vitro translation to the synthesis of unnatural peptides may allow the production of extremely large libraries of highly modified peptides, which are a potential source of lead compounds in the search for new pharmaceutical agents. The specificity of the translation apparatus,...

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Veröffentlicht in:	PloS one 2007-10, Vol.2 (10), p.e972-e972
Hauptverfasser:	Hartman, Matthew C T, Josephson, Kristopher, Lin, Chi-Wang, Szostak, Jack W
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino acids Amino Acids - chemistry Aminoacylation Analogs Biochemistry Biochemistry/Drug Discovery Biochemistry/Molecular Evolution Biochemistry/Transcription and Translation Carboxylic Acids - chemistry Cell-Free System Chemical Biology Chemistry/Biochemistry Competition Derivatives E coli Efficiency Escherichia coli Genetic Techniques Kinetics Lead compounds Libraries Ligands Medical research Models, Biological Molecular biology Peptide Chain Initiation, Translational Peptide Library Peptides Peptides - chemistry Polyesters Protein Biosynthesis Proteins Ribosomes - physiology RNA, Ribosomal - chemistry RNA, Transfer - chemistry Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization Transfer RNA Translation Translation (Genetics) tRNA
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creator	Hartman, Matthew C T Josephson, Kristopher Lin, Chi-Wang Szostak, Jack W
description	The application of in vitro translation to the synthesis of unnatural peptides may allow the production of extremely large libraries of highly modified peptides, which are a potential source of lead compounds in the search for new pharmaceutical agents. The specificity of the translation apparatus, however, limits the diversity of unnatural amino acids that can be incorporated into peptides by ribosomal translation. We have previously shown that over 90 unnatural amino acids can be enzymatically loaded onto tRNA. We have now used a competition assay to assess the efficiency of tRNA-aminoacylation of these analogs. We have also used a series of peptide translation assays to measure the efficiency with which these analogs are incorporated into peptides. The translation apparatus tolerates most side chain derivatives, a few alpha,alpha disubstituted, N-methyl and alpha-hydroxy derivatives, but no beta-amino acids. We show that over 50 unnatural amino acids can be incorporated into peptides by ribosomal translation. Using a set of analogs that are efficiently charged and translated we were able to prepare individual peptides containing up to 13 different unnatural amino acids. Our results demonstrate that a diverse array of unnatural building blocks can be translationally incorporated into peptides. These building blocks provide new opportunities for in vitro selections with highly modified drug-like peptides.
doi_str_mv	10.1371/journal.pone.0000972
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This is an open-access article distributed under the terms of the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. 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Our results demonstrate that a diverse array of unnatural building blocks can be translationally incorporated into peptides. 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The specificity of the translation apparatus, however, limits the diversity of unnatural amino acids that can be incorporated into peptides by ribosomal translation. We have previously shown that over 90 unnatural amino acids can be enzymatically loaded onto tRNA. We have now used a competition assay to assess the efficiency of tRNA-aminoacylation of these analogs. We have also used a series of peptide translation assays to measure the efficiency with which these analogs are incorporated into peptides. The translation apparatus tolerates most side chain derivatives, a few alpha,alpha disubstituted, N-methyl and alpha-hydroxy derivatives, but no beta-amino acids. We show that over 50 unnatural amino acids can be incorporated into peptides by ribosomal translation. Using a set of analogs that are efficiently charged and translated we were able to prepare individual peptides containing up to 13 different unnatural amino acids. Our results demonstrate that a diverse array of unnatural building blocks can be translationally incorporated into peptides. These building blocks provide new opportunities for in vitro selections with highly modified drug-like peptides.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>17912351</pmid><doi>10.1371/journal.pone.0000972</doi><tpages>e972</tpages><oa>free_for_read</oa></addata></record>
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subjects	Amino acids Amino Acids - chemistry Aminoacylation Analogs Biochemistry Biochemistry/Drug Discovery Biochemistry/Molecular Evolution Biochemistry/Transcription and Translation Carboxylic Acids - chemistry Cell-Free System Chemical Biology Chemistry/Biochemistry Competition Derivatives E coli Efficiency Escherichia coli Genetic Techniques Kinetics Lead compounds Libraries Ligands Medical research Models, Biological Molecular biology Peptide Chain Initiation, Translational Peptide Library Peptides Peptides - chemistry Polyesters Protein Biosynthesis Proteins Ribosomes - physiology RNA, Ribosomal - chemistry RNA, Transfer - chemistry Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization Transfer RNA Translation Translation (Genetics) tRNA
title	An expanded set of amino acid analogs for the ribosomal translation of unnatural peptides
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