Efficient synthesis of l-tert-leucine through reductive amination using leucine dehydrogenase and formate dehydrogenase coexpressed in recombinant E. coli

Abstract

Enantiopure l-tert-leucine (l-Tle) was synthesized through reductive amination of trimethylpyruvate catalyzed by cell-free extracts of recombinant Escherichia coli coexpressing leucine dehydrogenase (LeuDH) and formate dehydrogenase (FDH). The leudh gene from Lysinibacillus sphaericus CGMCC 1.1677 encoding LeuDH was cloned and coexpressed with NAD+-dependent FDH from Candida boidinii for NADH regeneration. The batch reaction conditions for the synthesis of l-Tle were systematically optimized. Two substrate feeding modes (intermittent and continuous) were addressed to alleviate substrate inhibition and thus improve the space-time yield. The continuous feeding process was conveniently performed in water at an overall substrate concentration up to 1.5M, with both conversion and ee of >99% and space-time yield of 786gL−1d−1, respectively. Furthermore, the preparation was successfully scaled up to a 1L scale, demonstrating the developed procedure showed a great industrial potential for the production of enantiopure l-Tle.