Mechanism of asymmetric production of L-aromatic amino acids from the corresponding hydantoins by Flavobacterium sp.

The mechanism of asymmetric production of l-aroniatic amino acids from the corresponding hydantoins by Flavobacterium sp. AJ-3912 was examined by investigating the properties of the enzymes involved in the hydrolysis of 5-substituted hydantoins corresponding to aromatic amino acids (A AH). The enzymatic hydrolysis of AAH by Flavobacterium sp. AJ-3912 consisted of the following two successive reactions; a hydrolytic ring opening reaction of dl-AAH to l- and d-form N-carbamyl aromatic amino acids (NCA), involving an enzyme (hydantoin hydrolase), followed by a hydrolytic cleaving reaction of the l-form NCA to l-aromatic amino acids involving another enzyme (N-carbamyl-l-aromatic amino acid hydrolase, abbreviated as l-NCA hydrolase). The ring opening reaction involving hydantoin hydrolase was not stereospecific, but the NCA cleaving reaction involving l-NCA hydrolase was completely l-specific. The pathway for the conversion of the by-produced d-form NCA to l-aromatic amino acids was as follows; conversion of ...