2016
DOI: 10.1038/nature20124
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Defining synonymous codon compression schemes by genome recoding

Abstract: Synthetic recoding of genomes, to remove targeted sense codons, may facilitate the encoded cellular synthesis of unnatural polymers by orthogonal translation systems. However, our limited understanding of allowed synonymous codon substitutions and the absence of methods that enable the stepwise replacement of the E. coli genome with long synthetic DNA, and provide feedback on allowed and disallowed design features in synthetic genomes, have restricted progress on this goal. Here we endow E. coli with a system … Show more

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Cited by 148 publications
(179 citation statements)
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“…This result is consistent with similar recoding studies in E. coli (3,7). Design flaws may affect viability, and troubleshooting may be a significant challenge when constructing a complete recoded genome.…”
Section: Discussionsupporting
confidence: 93%
See 1 more Smart Citation
“…This result is consistent with similar recoding studies in E. coli (3,7). Design flaws may affect viability, and troubleshooting may be a significant challenge when constructing a complete recoded genome.…”
Section: Discussionsupporting
confidence: 93%
“…The decision to target leucine codons was due to their high frequency of occurrence throughout the genome (Supplementary File SI 1, Section S2.2), and similar to previous recoding efforts (3,7), the two specific codons were chosen because their corresponding tRNA anticodons are not involved in decoding the remaining four leucine codons (29). This recoding scheme also minimizes the number of base pair changes, requiring only a single T to C base change for each codon.…”
Section: Resultsmentioning
confidence: 99%
“…ncAA incorporation in response to quadruplet codons capitalizes on the ability of natural translational machinery to tolerate frameshift suppression [54] but requires ribosome adaptation [55] and proficient otRNA variants [27]. Emerging techniques to rapidly liberate sense codons [56,57] highlight the need for deeper understanding of viable codon replacements [58] due to the inherent influence of codon usage on various cellular processes, including translation [59]. …”
Section: Codon Reassignment and Development Of Mutually Orthogonal O-mentioning
confidence: 99%
“…The scope of ncAAs incorporated by TyrRS and PylRS is biased towards aromatic, bulky, and large amino acids, in line with the their large amino acid binding pockets, limiting the repertoire of ncAAs they can be used to incorporate. Second, a set of diverse aaRS‱tRNA pairs will be essential for the development of platforms to incorporate multiple ncAAs into a single polypeptide [5, 6]. …”
Section: Introductionmentioning
confidence: 99%