A one‐pot deracemization strategy for α‐chiral amines is reported involving an enantioselective deamination to the corresponding ketone followed by a stereoselective amination by enantiocomplementary biocatalysts. Notably, this cascade employing a ω‐transaminase and amine dehydrogenase enabled the access to both (R)‐and (S)‐amine products, just by controlling the directions of the reactions catalyzed by them. A wide range of (R)‐and (S)‐amines was obtained with excellent conversions (>80 %) and enantiomeric excess (>99 % ee). Finally, preparative scale syntheses led to obtain enantiopure (R)‐ and (S)‐13 with the isolated yields of 53 and 75 %, respectively.
We report a highly atom‐efficient integrated cofactor/co‐product recycling cascade employing cycloalkylamines as multifaceted starting materials for the synthesis of nylon building blocks. Reactions using E. coli whole cells as well as purified enzymes produced excellent conversions ranging from >80 and 95 % into desired ω‐amino acids, respectively with varying substrate concentrations. The applicability of this tandem biocatalytic cascade was demonstrated to produce the corresponding lactams by employing engineered biocatalysts. For instance, ϵ‐caprolactam, a valuable polymer building block was synthesized with 75 % conversion from 10 mM cyclohexylamine by employing whole‐cell biocatalysts. This cascade could be an alternative for bio‐based production of ω‐amino acids and corresponding lactam compounds.
HighlightsMedium optimization for MPA production using P. brevicompactum by one-factor-at-a-time and CCD methods.CCD afforded a 40% higher MPA titer than one-factor-at-a-time method.The titer was nearly 6-fold higher compared to un-optimized medium.
We developed a multienzyme biocatalytic cascade with high atom efficiency and a self-sufficient redox network for the synthesis of nylon monomers without adding auxiliary enzymes to recycle cofactors.
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