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In Vivo Biosynthesis of a ?-Amino Acid-Containing Protein.


ABSTRACT: It has recently been reported that ribosomes from erythromycin-resistant Escherichia coli strains, when isolated in S30 extracts and incubated with chemically mis-acylated tRNA, can incorporate certain ?-amino acids into full length DHFR in vitro. Here we report that wild-type E. coli EF-Tu and phenylalanyl-tRNA synthetase collaborate with these mutant ribosomes and others to incorporate ?(3)-Phe analogs into full length DHFR in vivo. E. coli harboring the most active mutant ribosomes are robust, with a doubling time only 14% longer than wild-type. These results reveal the unexpected tolerance of E. coli and its translation machinery to the ?(3)-amino acid backbone and should embolden in vivo selections for orthogonal translational machinery components that incorporate diverse ?-amino acids into proteins and peptides. E. coli harboring mutant ribosomes may possess the capacity to incorporate many non-natural, non-?-amino acids into proteins and other sequence-programmed polymeric materials.

SUBMITTER: Melo Czekster C 

PROVIDER: S-EPMC6640638 | biostudies-literature | 2016 Apr

REPOSITORIES: biostudies-literature

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In Vivo Biosynthesis of a β-Amino Acid-Containing Protein.

Melo Czekster Clarissa C   Robertson Wesley E WE   Walker Allison S AS   Söll Dieter D   Schepartz Alanna A  

Journal of the American Chemical Society 20160418 16


It has recently been reported that ribosomes from erythromycin-resistant Escherichia coli strains, when isolated in S30 extracts and incubated with chemically mis-acylated tRNA, can incorporate certain β-amino acids into full length DHFR in vitro. Here we report that wild-type E. coli EF-Tu and phenylalanyl-tRNA synthetase collaborate with these mutant ribosomes and others to incorporate β(3)-Phe analogs into full length DHFR in vivo. E. coli harboring the most active mutant ribosomes are robust  ...[more]

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