Rapid genome recoding by iterative recombineering of synthetic DNA
WT| Exploring new antimicrobial pathways using a combinatorial biosynthetic approach.
Lau, Yu Heng; Stirling, Finn; Kuo, James; Karrenbelt, Michiel A.P.; Chan, Yujia A.; Riesselman, Adam; Horton, Connor A.; +6 Authors
Lau, Yu Heng; Stirling, Finn; Kuo, James; Karrenbelt, Michiel A.P.; Chan, Yujia A.; Riesselman, Adam; Horton, Connor A.; Schaefer, Elena; Lips, David; Weinstock, Matthew T.; Gibson, Daniel G.; Way, Jeffrey C.; Silver, Pamela A.;
Rapid genome recoding by iterative recombineering of synthetic DNA
Genome recoding will provide a deeper understanding of genetics and transform biotechnology. We bypass the reliance of previous genome recoding methods on site-specific enzymes and demonstrate a rapid recombineering based strategy for writing genomes by Stepwise Integration of Rolling Circle Amplified Segments (SIRCAS). We installed the largest number of codon substitutions in a single organism yet published, creating a strain of Salmonella typhimurium with 1557 leucine codon changes across 200 kb of the genome.
- Université Wageningen Netherlands
- Wyss Institute for Biologically Inspired Engineering United States
- Torrey Pines Institute For Molecular Studies United States
- WAGENINGEN UNIVERSITY Netherlands
- Wyss Institute for Biologically Inspired Engineering Harvard University United States
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These citations are derived from selected sources.
This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
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