Efficient Hydroxyproline Production From Glucose in Minimal Media by Corynebacterium glutamicum

The efficient coupling of biotransformation steps to an existing fermentation pathway is an interesting strategy to expand the product portfolio of Corynebacterium glutamicum as whole-cell biocatalyst. This is especially challenging if the biotransformation step comprises a direct link to central metabolism, as in the case of alpha-ketoglutarate-dependent oxygenase catalysis. Aiming at trans-4-hydroxy-Lproline (Hyp) production from glucose in a minimal medium, the proline-4-hydroxylase gene from Dactylosporangium sp. strain RH1 was introduced into a proline-producing, isoleucine-bradytroph C. glutamicum strain. The production of proline was found to be induced by isoleucine limitation. Proline andHyp production were found to depend differently on isoleucine limitation. Severe isoleucine limitation was shown to result in proline accumulation and low hydroxylation rates both in batch and continuous cultivation set-ups. The investigation of different steady states with various glucose/isoleucine molar ratios revealed that optimal conditions for Hyp production are met around a molar ratio of 46: 1, where isoleucine limitation is sufficient to trigger proline production but the hydroxylation rate is high enough to convert the majority of formed proline to Hyp. A high celldensity fed-batch set-up was designed, capable of producing 7.1 g L-1 of Hyp from glucose in 23 h with 98.5% conversion of proline to Hyp. Reaction engineering, specifically the finetuning of the glucose/isoleucine concentration ratio, enabled control of the fermentation profile and thus the accumulation of the desired product Hyp from glucose in minimal and defined media. (C) 2014 Wiley Periodicals, Inc.