Obtaining a mutant of Bacillus amyloliquefaciens xylanase A with improved catalytic activity by directed evolution

Abstract

This study aimed to obtain xylanase exhibiting improved enzyme properties to satisfy the requirements for industrial applications. The baxA gene encoding Bacillus amyloliquefaciens xylanase A was mutated by error-prone touchdown PCR. The mutant, pCbaxA50, was screened from the mutant library by using the 96-well plate high-throughput screening method. Sequence alignment revealed the identical mutation point S138T in xylanase (reBaxA50) produced by the pCbaxA50. The specific activity of the purified reBaxA50 was 9.38U/mg, which was 3.5 times higher than that of its parent expressed in Escherichia coli BL21 (DE3), named reBaxA. The optimum temperature of reBaxA and reBaxA50 were 55°C and 50°C, respectively. The optimum pH of reBaxA and reBaxA50 were pH 6 and pH 5, respectively. Moreover, reBaxA50 was more stable than reBaxA under thermal and extreme pH treatment. The half-life at 60°C and apparent melting temperature of reBaxA50 were 9.74min and 89.15°C, respectively. High-performance liquid chromatography showed that reBaxA50 released xylooligosaccharides from oat spelt, birchwood, and beechwood xylans, with xylotriose as the major product; beechwood xylan was also the most thoroughly hydrolyzed. This study demonstrated that the S138T mutation possibly improved the catalytic activity and thermostability of reBaxA50.