Random mutagenesis by recombinational capture of PCR products in Bacillus subtilis and Acinetobacter calcoaceticus.

AUTOR(ES)

Melnikov, A

RESUMO

We describe a general method for random mutagenesis of cloned genes by error-prone PCR or DNA shuffling that eliminates the need for post-amplification subcloning following each cycle of mutagenesis. This method exploits the highly efficient and recombinogenic nature of DNA uptake during natural transformation in the Gram-positive bacterium Bacillus subtilis and the Gram-negative bacterium Acinetobacter calcoaceticus. Plasmid systems were designed that allow capture of PCR-amplified DNA fragments by marker-replacement recombination with a structurally similar helper plasmid resident in the transformation recipient. This recombination event simultaneously transfers the amplified sequences into the helper plasmid and restores the integrity of a drug resistance gene, thereby affording a direct selection for fragment capture. Although this strategy was sufficiently effective to permit recovery in B. subtilis of up to 10(3) transformants/microgram of PCR product, equivalent plasmid systems were approximately 100 times more efficient in A.calcoaceticus. Acinetobacter calcoaceticus also offers the advantage of essentially constitutive transformation competence in ordinary complex broth, such as LB, in contrast to two-step growth in semi-synthetic media required for optimal transformation of B.subtilis.

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