Enhancement of the organic solvent-stability of the LST-03 lipase by directed evolution.

LST-03 lipase from an organic solvent-tolerant Pseudomonas aeruginosa LST-03 has high stability and activity in the presence of various organic solvents. In this research, enhancement of organic solvent-stability of LST-03 lipase was attempted by directed evolution. The structural gene of the LST-03 lipase was amplified by the error prone-PCR method. Organic solvent-stability of the mutated lipases was assayed by formation of a clear zone of agar which contained dimethyl sulfoxide (DMSO) and tri-n-butyrin and which overlaid a plate medium. And the organic solvent-stability was also confirmed by measuring the half-life of activity in the presence of DMSO. Four mutated enzymes were selected on the basis of their high organic solvent-stability in the presence of DMSO. The organic solvent-stabilities of mutated LST-03 lipase in the presence of various organic solvents were measured and their mutated amino acid residues were identified. The half-lives of the LST-03-R65 lipase in the presence of cyclohexane and n-decane were about 9 to 11-fold longer than those of the wild-type lipase, respectively. Some substituted amino acid residues of mutated LST-03 lipases have been located at the surface of the enzyme molecules, while some other amino acid residues have been changed from neutral to basic residues. (c) 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009.