Screening,isolation and selection of a potent lipase producing microorganism and its use in the kinetic resolution of drug intermediates

Lipases are ubiquitous enzymes that belong to family of serine hydolases with a wide variety of industrial applications. This study reports isolation, screening and identification of enantioselctive lipase producing microorganism for kinetic resolution of racemic alcohols. For this, we collected soil samples from different oil rich environments and we performed primary screening that was by carried out by using MSM-tributryin clear zone assay. The selected samples from first screen were subjected to secondary screening to distinguish lipase producing strains from esterase producing strains using p-nitrophenyl palmitate lipase assay. In tertiary screening, 16 lipase producing strains that were identified in secondary screening were employed for resolution of 5 different (RS)-alcohols. Out of all 16 lipase producing strains, only one strain selectively converted 3 racemic alcohols. Based on morphological, biochemical and physiological characteristics, and 16S rRNA gene sequencing, the strain was identified as Pseudomonas beteli. The strain was found to be S-selective and there been no reports on use of Pseudomonas beteli lipase for kinetic resolution of alcohols. The lipase activity was further increased by media optimization and by improving growth conditions, and production of lipase in shake flask study as well as in laboratory scale fermenter. The optimum time for enzyme production by Pseudomonas beteli was 96 ​h whereas cell mass growth was highest at 72 ​h. Optimum temperature and pH were 30 ​°C and 6, respectively. Beef extract (5 ​g/L), peptone (5 ​g/L), sodium chloride (5 ​g/L), yeast extract (1 ​g/L) and glucose (5 ​g/L) were found as optimum nutrition sources for the cell mass growth and lipase production by Pseudomonas sp. Overall, 3.4 times higher enzyme activity and 2.75 times higher cell mass growth were achieved in bioreactor in comparison to the shake flask study. Lipase having high titer was employed successfully for the kinetic resolution of several drug intermediates.