Degradation of long-chain n-alkanes by the yeast Candida maltosa

Summary Microsomal membrane fractions of the yeast Candida maltosa were investigated with respect to their ability to catalyse the oxidation of n-alkanes, fatty alcohols and fatty acids. Analysis of intermediates of n-hexadecane oxidation led to the conclusion that monoterminal attack was predominant, whereas diterminal oxidation proceeded as a minor reaction. The oxidation of long-chain primary alcohols to the corresponding aldehydes occurred without addition of nicotinamide adenine dinucleotide (phosphate) [NAD(P)⁺] and was accompanied by stoichiometric oxygen consumption and hydrogen peroxide production, suggesting that an alcohol oxidase instead of an NAD(P)⁺-requiring alcohol dehydrogenase catalysed these reactions. As shown for n-hexadecane, the hydroxylation of palmitic acid was found to be carbon monoxide-dependent, indicating involvement of a cytochrome P-450 system, as in the case of n-alkane hydroxylation.