Development of a high-performance liquid chromatographic system with enzyme reactors for the determination of N-acetyl branched-chain amino acids.

Immobilized enzymes were used as column reactors in a high-performance liquid chromatographic system for the specific detection of N-acetyl branched-chain amino acids (AcBCAs) such as N- acetyl- l -valine (AcVal), N- acetyl- l -leucine (AcLeu) and N- acetyl- l -isoleucine (AcIle). Aminoacylase and leucine dehydrogenase were immobilized onto poly(vinyl alcohol) beads. The AcBCAs were separated as three peaks on a Capcell C(1) SG120 column with 0.03M phosphate buffer (pH 8.0). Aminoacylase was capable of hydrolysing the AcBCAs to amino acids, which react with beta-nicotinamide adenine dinucleotide (NAD(+)) in the presence of leucine dehydrogenase. The reduced nicotinamide adenine dinucleotide (NADH) produced was monitored fluorimetrically. The calibration graphs were linear from 4 to 200muM for AcVal and AcLeu, and from 5 to 300muM for AcIle; detection limits for AcVal, AcLeu and AcIle were 2, 2 and 3muM, respectively. The immobilized aminoacylase reactor should be renewed every 5 days owing to a poor stability of aminoacylase.