High-efficiency gene inactivation and replacement system for gram-positive bacteria.

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J Bacteriol. 1993 June; 175(11): 3628-3635

research-article

High-efficiency gene inactivation and replacement system for gram-positive bacteria.

I Biswas, A Gruss, S D Ehrlich and E Maguin

Laboratoire de Génétique Microbienne, Institut National de la Recherche Agronomique, Jouy en Josas, France.

ABSTRACT

A system for high-efficiency single- and double-crossover homologousintegration in gram-positive bacteria has been developed, withLactococcus lactis as a model system. The system is based ona thermosensitive broad-host-range rolling-circle plasmid, pG+host5,which contains a pBR322 replicon for propagation in Escherichiacoli at 37 degrees C. A nested set of L. lactis chromosomalfragments cloned onto pG+host5 were used to show that the single-crossoverintegration frequency was logarithmically proportional to thelength of homology for DNA fragments between 0.35 and 2.5 kb.Using random chromosomal 1-kb fragments, we showed that homologousintegration can occur along the entire chromosome. We made useof the reported stimulatory effect of rolling-circle replicationon intramolecular recombination to develop a protocol for genereplacement. Cultures were first maintained at 37 degrees Cto select for a bacterial population enriched for plasmid integrants;activation of the integrated rolling-circle plasmid by a temperatureshift to 28 degrees C resulted in efficient plasmid excisionby homologous recombination and replacement of a chromosomalgene by the plasmid-carried modified copy. More than 50% ofcells underwent replacement recombination when selection wasapplied for the replacing gene. Between 1 and 40% of cells underwentreplacement recombination when no selection was applied. Chromosomalinsertions and deletions were obtained in this way. These resultsshow that gene replacement can be obtained at an extremely highefficiency by making use of the thermosensitive rolling-circlenature of the delivery vector. This procedure is applicableto numerous gram-positive bacteria.

J Bacteriol. 1993 June; 175(11): 3628-3635

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