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Precise Editing at DNA Replication Forks Enables Multiplex Genome Engineering in Eukaryotes.

Cell (2017-11-21)
Edward M Barbieri, Paul Muir, Benjamin O Akhuetie-Oni, Christopher M Yellman, Farren J Isaacs
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We describe a multiplex genome engineering technology in Saccharomyces cerevisiae based on annealing synthetic oligonucleotides at the lagging strand of DNA replication. The mechanism is independent of Rad51-directed homologous recombination and avoids the creation of double-strand DNA breaks, enabling precise chromosome modifications at single base-pair resolution with an efficiency of >40%, without unintended mutagenic changes at the targeted genetic loci. We observed the simultaneous incorporation of up to 12 oligonucleotides with as many as 60 targeted mutations in one transformation. Iterative transformations of a complex pool of oligonucleotides rapidly produced large combinatorial genomic diversity >10

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Lithiumacetat, 99.95% trace metals basis
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Lycopin, analytical standard