Effects of Chain-length of Alkane Substrate on Fatty Acid Composition and Biosynthetic Pathway in Some Candida Yeasts

Abstract

Cellular fatty acid compositions of Candida tropicalis pK 233 and Candida lipolytica NRRL Y -6795 and the time-course changes during yeast growth were studied using individual n-alkanes of various chain lengths (from C11 to C18) and a mixture of n-alkanes (C11 to C18) as a sole carbon source. Observed relationships of the chain-length of n-alkane substrate to time-course changes and final patterns of the fatty acid compositions of these yeasts, especially those of the cells grown on odd-carbon alkanes, indicated that “intact incorporation mechanism,” that is, accumulation of the fatty acid having the same chain-length as that of the alkane substrate used was predominant in the yeasts cultivated on a longer alkane such as n-heptadecane and n-octadecane. On the other hand, “chain elongation pathway” and “de novo synthesis pathway” following β-oxidation of substrate were simultaneously operative in the cells growing on a relatively shorter alkane such as undecane and dodecane.