Here, we present the electroporation as a feasible and efficient method for introducing circularized and linearized DNA into Bacillus subtilis chromosome. Two integration experiments were carried out and demonstrated the feasibility and efficiency of electroporation to introduce the target DNA into the B. subtilis chromosome. By using of electroporation, a multiple-cistron contained five genes from B. subtilis biotin biosynthetic pathway was introduced into the B. subtilis chromosome efficiently and created a repeated copy in chromosome via a single crossover event. Then an ectopic promoter was introduced conveniently into the upstream of one of the repeated multiple-cistron via a double crossover event. To further demonstrate the application of electroporation in genetic research, the early sporulation gene spo0A of B. subtilis was knocked out and, consequently, the null of sporulation and logged growth was observed in this study. Thus, the electroporation as an alternative method of integration in B. subtilis is feasible and practical.
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