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Abstract
By screening around 30 commercially available lipases and esterases, two enzymes, C. rugosa lipase and P. fluorescens esterase, were found to posess catalytic activity and enantioselectivity (E˜10) for the hydrolysis of 2-chloro-3,3,3-trifluoropropanoic acid (CTFPA) methyl and ethyl ester. Both enzymes were tentatively assigned to be (S)-selective based on the assumption that they have the same stereopreference as in the hydrolysis of methyl 2-chloropropanoate, which is a non-fluorinated analogue of CTFPA. The enzymes were applied in the kinetic resolution of CTFPA ethyl ester and 95% ee of the remaining ester could be achieved at 60% conversion. The crosslinked enzyme aggregate (CLEA) of C. rugosa lipase was found to catalyze enantioselective transesterification (E˜40) of CTFPA methyl ester with ethanol. By conducting the transesterification in a 10-mL packed-bed reactor containing CLEA, it was possible to convert racemic CTFPA methyl ester into the mixture of (S)-methyl and (R)-ethyl esters with 82% and 90% ee, respectively, at 4.0 g/L-1/h-1 space-time yield, which decreased to 1.0 g/L-1/h-1 after four repetitive batches.
Declaration of interest: The authors report no conflicts of interest. The authors alone are responsible for the content and writing of the paper.