Open AccessOne-Step, Highly Efficient Site-Directed Mutagenesis by Toxic Protein Selection
Author(s) -
Wei Xu,
Yushi Zhang,
Lan-Yu Yeh,
Claudia R. Ruprecht,
Flossie WongStaal,
Bruce A. McFadden,
T. Raghunadha Reddy,
Ruth M. Ruprecht
Publication year - 2002
Publication title -
biotechniques
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.617
H-Index - 131
eISSN - 1940-9818
pISSN - 0736-6205
DOI - 10.2144/02326st01
Subject(s) - mutagenesis , plasmid , site directed mutagenesis , transformation (genetics) , biology , mutant , directed mutagenesis , genetics , gene , lac operon , mutation , selection (genetic algorithm) , directed evolution , cloning (programming) , microbiology and biotechnology , artificial intelligence , computer science , programming language
A fast and efficient site-directed mutagenesis method has been developed, using the newly constructed plasmid pTPS19, which expresses the toxic CcdB protein originally encoded by the E. coli F plasmid. Once the target gene is cloned into pTPS19, desired mutations can be introduced with two primers. The first contains the desired mutation, and the second is designed to create a +1 frame shift in the ccdBgene to inactivate the CcdB protein. The mutants can be directly selected on LB plates containing IPTG, through which the toxic CcdB protein is induced, thereby eliminating cells carrying wild-type parental plasmids. Based on stringent selection through the toxic CcdB protein, mutagenesis efficiency of 90%–100% was reached even after one round of transformation.
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