P.J. Botes

Production of 3R-hydroxy-polyenoic fatty acids by the yeast Dipodascopsis uninucleata

Various fatty acids were fed to the yeast Dipodascopsis uninucleata UOFS Y 128, and the extracted samples were analyzed for the accumulation of 3-hydroxy metabolites with the help of electron impact gas chromatography-mass spectrometry. Fatty acids containing a 5Z,8Z-diene system (5Z,8Z,11Z-eicosatrienoic, 5Z,8Z,11Z,14Z-eicosatetraenoic, and 5Z,8Z,11Z,14Z,17Z-eicosapentaenoic acids) yielded the corresponding 3-hydroxy-all-Z-eicosapolyenoic acids. Moreover, linoleic acid (9Z,12Z-octadecadienoic acid) and 11Z,14Z,17Z-eicosatrienoic acid were converted to the 3-hydroxylated metabolites of shorter chain length, e.g., 3-hydroxy-5Z,8Z-tetradecadienoic acid and 3-hydroxy-5Z,8Z,11Z-tetradecatrienoic acid, respectively. In contrast, no accumulation of a 3-hydroxy metabolite was observed with oleic acid (9Z-octadecenoic acid), linolelaidic acid (9E,12E-octadecadienoic acid), γ-linolenic acid (6Z,9Z,12Z-octadecatrienoic acid), and eicosanoic acid as substrate. These findings pinpoint that the 3-hydroxylation of a fatty acid in Dipodascopsis uninucleata requires a 5Z,8Z-diene system either directly or following initial incomplete β-oxidation. Following analysis of the enantiomer composition, the arachidonic acid metabolite was identified as 3R-hydroxy-5Z,8Z,11Z,14Z-eicosatetraenoic acid, which rules out a normal β-oxidation as biosynthetic route to this new class of oxylipins.

A novel oxylipin-associated 'ghosting' phenomenon in yeast flocculation.

Research on the distribution of oxylipins (3-hydroxy fatty acids) in flocculant strains of the yeast Saccharomyces cerevisiae led to the uncovering of a novel ‘ghosting’ phenomenon observed during assumed lectin-mediated aggregation. We found that intracellular oxylipin-containing osmiophilic layers migrate through yeast cell walls in a ‘ghostlike’ fashion without visually affecting the cell wall structure or the layers. This migration resulted in the binding of these layers to cell walls of adjacent cells. Consequently, ‘ghosting’ seems a prerequisite for flocculation to occur. However, ‘ghosting’ alone may not be sufficient to ensure flocculation.

Developing a rapid statistical identification process for different yeast species

Abstract A yeast identification procedure was developed with the aid of statistical methods. In this process cellular fatty acids of ten yeast species grown on yeast nitrogen base medium were extracted from yeast cells by saponification and analyzed as methyl esters by gas-liquid chromatography. Each species produced a distinctive fatty acid ‘fingerprint’ characterized by certain fatty acid compositions. A statistical procedure was developed in order to transform the ‘fingerprints’ into a yeast profile which resulted in a marked reduction in variation between profiles of the same yeast species. With this identification method, it was possible to identify the ten species within 4 h after they were obtained from cultures of yeasts grown for 48 h on glucose yeast nitrogen base medium as compared with 7–10 days for the more conventional methods.

Acetate Enhances Citric Acid Production by Yarrowia lipolytica When Grown on Sunflower Oil

It was discovered that the addition of 10 g/l acetate to a medium containing 30 g/l sunflower oil caused a drastic increase in citric acid production by Yarrowia lipolytica UOFS Y-1701 i.e. from 0.5 g/l in the absence of acetate to 18.7 g/l in the presence of acetate. Similarly, the ratio of citric acid:isocitric acid increased significantly from 1.7:1 in the absence of acetate to 3.7:1 in the presence of acetate after 240 h of growth.

Mucor-a source of cocoa butter and gamma-linolenic acid.

Lipid analyses were performed on 28 strains of various species of the genus Mucor. In shake flasks with glucose as carbon source, the gamma-linolenic acid (GLA) content in the neutral lipid (NL) fraction of some Mucor species was up to 38 mg GLA/g dry biomass. Some Mucor species produced more than 20% (w/w) stearic acid (18:0) and more than 60% of their NL content as symmetrical triacylglycerols (SUS-TAGs) which corresponded to those of cocoa butter. Three Mucor species were evaluated in terms of the production of SUS-TAGs and GLA in pH-stat, fed-batch cultures in an air-lift fermenter with acetic acid as titrant and carbon source. Mucor circinelloides f. circinelloides CBS 108.16 accumulated 27% 18:0 in the NL fraction, which constituted approximately 40% of the dry biomass. In this case, the NL fraction contained more than 70% (w/w) SUS-TAGs.

Fermentation alcohol from grain sorghum starch.

Abstract Grain sorghum is an attractive agricultural feedstock for ethanol production because of its high starch content and the fact that it is more drought-resistant than other cereal crops such as maize. The popular bird-proof grain sorghum variety was investigated. This was subjected to a chemical pretreatment to remove the polyphenolic compounds prior to starch hydrolysis and subsequent fermentation. Starch hydrolysis was accomplished with a commercial α-amylase for liquefaction and amyloglucosidase for saccharification. Depending on the saccharification conditions, the hydrolysate contained 65 to 128 g litre−1 glucose with corresponding maltose concentrations of 50 to 20 g litre−1. Several yeast strains were evaluated for their ability to ferment maltose. The total saccharification plus fermentation time could be shortened substantially by inoculating after a brief saccharification period. The addition of ammonium chloride to the hydrolysate improved the fermentation rate. From a 30% grain sorghum slurry an ethanol concentration of over 12% (v/v) was obtained, which was 84% of the theoretical maximum. The data indicated that about 380 litres of ethanol could be produced per ton grain sorghum.

3-Hydroxy fatty acids found in capsules of Cryptococcus neoformans

Using immunofluorescence confocal laser scanning microscopy, immunogold transmission electron microscopy and gas chromatography--mass spectrometry, we demonstrated the presence of 3-hydroxy fatty acids in Cryptococcus neoformans. Our results suggest that these oxylipins accumulate in capsules where they are released as hydrophobic droplets through tubular protuberances into the surrounding medium.

Arachidonic acid increases antifungal susceptibility of Candida albicans and Candida dubliniensis

OBJECTIVES During Candida albicans infection, arachidonic acid (AA) is released from phospholipids of infected host cell membranes and used by C. albicans as the sole carbon source and for production of eicosanoids. AA can be incorporated into the phospholipids of yeasts, influencing the saturation level and fluidity of yeast cell membranes. It is suggested that the effectiveness of polyene (e.g. amphotericin B) and imidazole (e.g. clotrimazole) antifungals may depend upon the level of unsaturation and ergosterol in the membrane. Therefore, the aim of this study was to evaluate the effect of AA on the cell membrane and susceptibility of C. albicans and Candida dubliniensis biofilms towards amphotericin B and clotrimazole. METHODS Both yeasts were grown in the presence and absence of AA and the effect of amphotericin B and clotrimazole was examined by confocal laser scanning microscopy, determination of mitochondrial metabolism, unsaturation index of the phospholipid fractions and ergosterol content of the membranes. RESULTS AA had no effect on the viability of the cells in the biofilm; however, there was an increase in ergosterol levels as well as antifungal susceptibility of biofilms grown in the presence of AA. CONCLUSIONS AA influences phospholipid unsaturation and ergosterol content of both yeasts C. albicans and C. dublininensis, increasing susceptibility towards the antifungals. Pretreatment of biofilms with polyunsaturated fatty acids may result in the reduction in antifungal dose needed to inhibit biofilms.

The long-chain fatty acid composition of yeasts used in the brewing industry

SummaryThe cellular long-chain fatty acids of 69 strains of yeasts, representing 29 species associated with the brewing industry, were extracted by saponification and analyzed asmethyl esters by gas chromatography. The strains were characterized by the presence of palmitic, palmitoleic, stearic, oleic, linoleic and linolenic acid as the major fatty acids. The strains were divided into six groups on the basis of their fatty acid content. With this method it was possible to differentiate between the yeasts on species and, in some instances, on strain level.

Acetylsalicylic acid as antifungal in Eremothecium and other yeasts

Interesting distribution patterns of acetylsalicylic acid (ASA, aspirin) sensitive 3-hydroxy (OH) oxylipins were previously reported in some representatives of the yeast genus Eremothecium—an important group of plant pathogens. Using immunofluorescence microscopy and 3-OH oxylipin specific antibodies in this study, we were able to map the presence of these compounds also in other Eremothecium species. In Eremothecium cymbalariae, these oxylipins were found to cover mostly the spiky tips of narrowly triangular ascospores while in Eremothecium gossypii, oxylipins covered the whole spindle-shaped ascospore with terminal appendages. The presence of these oxylipins was confirmed by chemical analysis. When ASA, a 3-OH oxylipin inhibitor, was added to these yeasts in increasing concentrations, the sexual stage was found to be the most sensitive. Our results suggest that 3-OH oxylipins, produced by mitochondria through incomplete β-oxidation, are associated with the development of the sexual stages in both yeasts. Strikingly, preliminary studies on yeast growth suggest that yeasts, characterized by mainly an aerobic respiration rather than a fermentative pathway, are more sensitive to ASA than yeasts characterized by both pathways. These data further support the role of mitochondria in sexual as well as asexual reproduction of yeasts and its role to serve as a target for ASA antifungal action.