An improved transconjugation protocol for Bacillus megaterium facilitating a direct genetic knockout

Richhardt J, Larsen M, Meinhardt F

Zusammenfassung

We provide a simple but very efficient transconjugation protocol for Bacillus megaterium. By combining utile attributes of known transconjugation methods (small size of the transferred DNA, close physical contact between donor and recipient cells, and heat treatment of the latter) and by determining the appropriate donor/recipient ratio, mating approaches yielded 5 x 10(-5) transconjugants/recipient. Counter-selection for eliminating Escherichia coli donor cells from the mating mixture was possible by pasteurization in case a wild type sporulation proficient B. megaterium served as the mating partner. For nonsporulating mutants, the sacB gene from Bacillus subtilis coding for levansucrase was successfully employed to select against the E. coli donor. The transfer efficiency, up to 15,000 transconjugants acquirable in a single experiment, sufficed-for the first time in this species-to directly select a gene (uvrA) knockout in a one-step procedure. By making use of a mobilizable B. megaterium suicide vector, ten out of the 40 sampled putative transconjugants displayed the expected UV sensitivity and were found to harbor the suicide vector at the anticipated position. Along with the soon available information arising from current B. megaterium sequencing projects, the possibility to quickly inactivate genetic loci will considerably speed up genetic work with this biotechnologically relevant species.

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