A mini-Mu transposon-based method for multiple DNA fragment integration into bacterial genomes.

A method for construction of bacterial strains with multiple DNA inserted into their chromosomes has been developed based on the mini-Mu transposon and FLP/FRT recombination. Exogenous DNA can be integrated by Mu transposition with an FRT cassette containing selection marker and conditional replicative origin (R6Kgammaori). Subsequently, with the introduction of a helper plasmid bearing gene of FLP recombinase, drug-resistant selection marker is excised from the chromosome. Cells cured of the helper plasmid can undergo the next cycle of transposition and excision of selection marker. Each cycle can add further foreign gene(s) to the chromosome. As an example, resistance genes of chloramphenicol, tetracycline, and gentamicin were successively integrated into the chromosome of Escherichia coli BW25113 by three cycles of insertion and excision as described above. This method proved to be simple and time-saving, which could be applicable to a variety of microorganisms.