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Literature DB >> 28697669

Rewriting the Genetic Code.

Takahito Mukai¹, Marc J Lajoie², Markus Englert¹, Dieter Söll^1,3.

Abstract

The genetic code-the language used by cells to translate their genomes into proteins that perform many cellular functions-is highly conserved throughout natural life. Rewriting the genetic code could lead to new biological functions such as expanding protein chemistries with noncanonical amino acids (ncAAs) and genetically isolating synthetic organisms from natural organisms and viruses. It has long been possible to transiently produce proteins bearing ncAAs, but stabilizing an expanded genetic code for sustained function in vivo requires an integrated approach: creating recoded genomes and introducing new translation machinery that function together without compromising viability or clashing with endogenous pathways. In this review, we discuss design considerations and technologies for expanding the genetic code. The knowledge obtained by rewriting the genetic code will deepen our understanding of how genomes are designed and how the canonical genetic code evolved.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: codon usage; genetic code; orthogonal; synthetic biology; translation engineering

Mesh：

Substances：
Amino Acids
Codon

Year: 2017 PMID： 28697669 PMCID： PMC5772603 DOI： 10.1146/annurev-micro-090816-093247

Source DB: PubMed Journal: Annu Rev Microbiol ISSN： 0066-4227 Impact factor: 15.500

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5. Experimental evolution heals the scars of genome-scale recoding.

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6. Overcoming Near-Cognate Suppression in a Release Factor 1-Deficient Host with an Improved Nitro-Tyrosine tRNA Synthetase.

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10. Resurrecting the Bacterial Tyrosyl-tRNA Synthetase/tRNA Pair for Expanding the Genetic Code of Both E. coli and Eukaryotes.

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