Doctoral Thesis
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This thesis deals with the process considerations and optimizations of a whole-cell enzyme cascade reaction for the synthesis of ɛ-caprolactone. The enzyme cascade synthesis of ɛ-caprolactone has been conceptualized and verified using a dehydrogenase and a monooxygenase. The advantage of this enzyme combination is the closed-loop co-factor regeneration. Dehydrogenase and monooxygenase expressed in discrete whole cells were applied in defined ratio to conceptualize the cascade reaction. This necessitates the use of separate co-factor regeneration system due to impermeability of the E. coli cell wall to the co-factor. Article I deal with the design and optimization of dehydrogenase and monooxygenase co-expression in a same E. coli cell. In Article II, the cascade reaction was upscaled and a fed-batch process was realized. Following which, the important reaction metrices were analyzed and optimized. Article III extends the two-enzyme cascade with a lipase. The use of lipase helps to overcome the product inhibition of monooxygenase by ɛ-caprolactone.