Nitratireductor sp. OM-1 can accumulate butenoic acid, which is a short-chain unsaturated carboxylic acid utilized for chemical products. So far, we have predicted the thioesterase gene, te, as a candidate gene for butenoic acid biosynthesis, based on comparative transcriptome analysis. To confirm the function of te, the gene transfer system in Nitratireductor sp. OM-1 was required. Thus, in this study, we used electroporation as a transformation system and pRK415, a broad host range plasmid, and optimized the conditions. As a result, a maximum transformation efficiency of 7.9 × 104 colonies/µg DNA was obtained at 22.5 kV/cm. Moreover, an expression vector, pRK415-te, was constructed by insertion of te, which was successfully transferred into strain OM-1, using electroporation. The recombinant OM-1 strain produced butenoic acid at 26.7 mg/g of dried cell weight, which was a 254% increase compared to transformants harboring an empty vector. This is the first report of a gene transfer system for Nitratireductor sp., which showed that the te gene was responsible for butenoic acid production.
Keywords: Butenoic acid; Electroporation; Nitratireductor; Self-cloning; Transformation.
© 2023. The Author(s).