Directed evolution is a powerful tool for the rapid improvement of a target protein toward a desired fitness criteria, such as activity, specificity, or stability. In order to achieve these desired improvements, it is often beneficial to subject the entirety of the protein to mutagenesis. However, the creation of such libraries by targeted methods (i.e. site-directed mutagenesis) can be a laborious and costly task. Here we outline the GeneORator method, which uses Boolean "OR" logic to introduce specific codon mutations at multiple loci in a single reaction, thereby greatly reducing the experimental workload. The method describes library synthesis using asymmetric PCR, in which mutagenic primers are designed to create OR-type mutations at multiple sites of variation in a two-step protocol. As an example, we show how this can be utilized for controlled and economical mutagenesis of every amino acid codon in a gene. © 2022. Springer Science+Business Media, LLC, part of Springer Nature.
Lucy Green, Nigel S Scrutton, Andrew Currin. GeneORator: An Efficient Method for the Systematic Mutagenesis of Entire Genes. Methods in molecular biology (Clifton, N.J.). 2022;2461:111-122
PMID: 35727446
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