NAD+ regeneration in a microreactor using permeabilized baker's yeast cells

In this study regeneration of coenzyme NAD+ was carried out in a microreactor by acetaldehyde reduction to ethanol using enzyme alcohol dehydrogenase (ADH). Suspended and immobilized whole permeabilized baker's yeast cells were used as the source of the ADH enzyme. A 65.3% conversion of NADH was achieved with suspended permeabilized baker's yeast cells for a residence time of τ = 36 s and equimolar concentration of substrates (ci,NADH = 5.5 mmol/dm3, ci,acetaldehyde = 5.5 mmol/dm3). When working with immobilized cells, conversion achieved for the same residence time was 10 fold lower. When permeabilized baker's yeast cells were used for coenzyme regeneration process was stabile for 6 days of continuous operation which makes this system a good alternative for coenzyme regeneration.