Enzymatic Synthesis of Chiral Phenylalanine Derivatives by a Dynamic Kinetic Resolution of Corresponding Amide and Nitrile Substrates with a Multi‐Enzyme System

Mutant α‐amino‐ε‐caprolactam (ACL) racemase (L19V/L78T) from Achromobacter obae with improved substrate specificity toward phenylalaninamide was obtained by directed evolution. The mutant ACL racemase and thermostable mutant D ‐amino acid amidase (DaaA) from Ochrobactrum anthropi SV3 co‐expressed in Escherichia coli (pACLmut/pDBFB40) were utilized for synthesis of ( R )‐phenylalanine and non‐natural ( R )‐phenylalanine derivatives (4‐OH, 4‐F, 3‐F, and 2‐F‐Phe) by dynamic kinetic resolution (DKR). Recombinant E. coli with DaaA and mutant ACL racemase genes catalyzed the synthesis of ( R )‐phenylalanine with 84% yield and 99% ee from ( RS )‐phenylalaninamide (400 mM) in 22 h. ( R )‐Tyrosine and 4‐fluoro‐( R )‐phenylalanine were also efficiently synthesized from the corresponding amide compounds. We also co‐expresed two genes encoding mutant ACL racemase and L ‐amino acid amidase from Brevundimonas diminuta in E. coli and performed the efficient production of various ( S )‐phenylalanine derivatives. Moreover, 2‐aminophenylpropionitrile was converted to ( R )‐phenylalanine by DKR using a combination of the non‐stereoselective nitrile hydratase from recombinamt E. coli and mutant ACL racemase and DaaA from E. coli encoding mutant ACL racemase and DaaA genes.