Immobilization and stability of the NAD-dependent hydrogenase from alcaligenes eutrophus and of whole cells

Summary The purified soluble NAD-dependent hydrogenase from Alcaligenes eutrophus was immobilized to porous glass beads according to the glutaraldehyde method retaining about 80% of its original activity. Entrapment of the purified hydrogenase in photo-crosslinkable prepolymers led to apparent activity yields of 10–80% dependent on the thickness of the gel film. The storage stability of entrapped hydrogenase (t/2 = 4 d) was considerably lower than that of glass-bound hydrogenase (t/2 = 150 d). During continuous production of NADH (turnover conditions), the half-life of entrapped hydrogenase was not longer than 10 h. Whole cells of A. eutrophus entrapped in a polyurethane matrix were used to produce NADH with hydrogen gas as electron donor. After 18 runs for 4h each and storage periods overnight the residual activity was still about 50%.