Production of α-linolenic acid in Yarrowia lipolytica using low-temperature fermentation

α-Linolenic acid (ALA) is an essential ω-3 fatty with reported health benefits. However, this molecule is naturally found in plants such as flaxseed and canola which currently limits production. Here, we demonstrate the potential to sustainably produce ALA using the oleaginous yeast Yarrowia lipolytica. Through the use of a recently identified Δ12–15 desaturase (Rk Δ12–15), we were able to enable production in Y. lipolytica. When combined with a previously engineered lipid-overproducing strain with high precursor availability, further improvements of ALA production were achieved. Finally, the cultivation of this strain at lower temperatures significantly increased ALA content, with cells fermented at 20 °C accumulating nearly 30% ALA of the total lipids in this cell. This low-temperature fermentation represents improved ALA titer up to 3.2-fold compared to standard growth conditions. Scale-up into a fed-batch bioreactor produced ALA at 1.4 g/L, representing the highest published titer of this ω-3 fatty acid in a yeast host.

     

Effect of diets containing γ-linolenic acid on n-6 highly unsaturated fatty acid content of rotifer (Brachionus plicatilis)

The effect of various diets containing linoleic and/or -linolenic acids was studied on n-6 fatty acid composition of the rotifer Brachionus plicatilis. The rotifer's abilities for transformations of n-6 fatty acids were evaluated. Diets containing only linolenic acid as n-6 fatty acid induced low levels of other n-6 fatty acids in rotifers while a diet containing also -linolenic acid led to substantial amounts of di homo -linolenic acid in the rotifers through elongation. Desaturation of -linoleic acid to gamma linolenic appears to be the limiting factor of n-6 highly unsaturated fatty acid biosynthesis by the rotifer. Two sets of experiments were compared using different techniques and different sources of -linolenic acid: Spirulina in inert food or borage oil in emulsion with baker's yeast. Rotifers fed with inert diet with Spirulina contained arachidonic acid while those fed with borage oil had very low arachidonic content. High level of n-3 fatty acids incorporated into the diets seemed to exert inhibitory effects on n-6 transformation rate.     

Selective separation of γ-linolenic acid ethyl ester using y-zeolite

To highly purify γ-linolenic acid (GLA) from microbial lipids, various types of zeolites were investigated in a fixed-bed column system, where a two-step desoprtion operation mode was found to be superior in selective separation of GLA. By this system, GLA ethyl ester of 98 mol% purity was obtained from a mixture of various polysaturated and unsaturated fatty acid esters using cesium Y and methyl-, dimethyl- and ethylammonium Y zeolites.     

Increasing γ-linolenic acid content in Spirulina platensis using fatty acid supplement and light–dark illumination

Spirulina platensis, a filamentous cyanobacterium, produces γ-linolenic acid (GLA, 18:3), which is an important anti-inflammatory for pharmaceutical use. Thus, to increase the GLA content in S. platensis, this study investigated the combined effect of a light–dark (LD) two-stage culture and mixotrophic culture including a precursor of GLA. When compared with a photoautotrophic culture, the supplement of a GLA precursor, such as a long- or short-chain carbon source, enhanced the total fatty acid and GLA contents in the cells in the two-stage culture. The highest GLA content of 2% (w/w) and productivity of 27.6?±?4.7?mg?L^?1 were obtained in S. platensis when using 0.01?mM palmitic acid as a supplement in the two-stage culture. This study also suggests that a mixotrophic and LD two-stage culture may represent a method for increasing the total lipid production, which can then be converted to biofuels.     

Enrichment of γ-linolenic acid from fungal oil by lipase-catalysed reactions

Summary Various lipases have been evaluated as biocatalysts for the enrichment of -linolenic acid from a commercial fungal oil derived from Mucor sp. by selective esterification of the fungal oil fatty acids with n-butanol or by selective hydrolysis of the oil. Lipase from M. miehei (Lipozyme), as compared to lipases from Candida cylindracea, Penicillium cyclopium, and Rhizopus arrhizus, was found to be most effective in the enrichment of -linolenic acid in unesterified fatty acids upon esterification of the fungal oil fatty acids with n-butanol. Thus, the -linolenic acid content could be raised from 10.4% in the starting material to 68.8% in the unesterified fatty acids. Selective hydrolysis of the fungal oil triacyglycerols using Lipozyme resulted in about 1.5-fold enrichment of -linolenic acid in the unhydrolysed acylglycerols. Other lipases tested, such as those from P. cyclopium, C. cylindracea, R. arrhizus, Penicillium sp. (Lipase G), porcine pancreas and Chromobacterium viscosum, were also rather ineffective in the enrichment of -linolenic acid by selective hydrolysis of the fungal oil triacylglycerols. Offprint requests to: K. D. Mukherjee     

Optimization of γ-linolenic acid (GLA) production inSpirulina platensis

The cyanobacteriumSpirulina platensis is one of the most promising sources of the polyunsaturated fatty acid -linolenic acid (GLA). The GLA content ofSpirulina can be enhanced by cultivation under light-dark cycles in the laboratory or outdoors. Thus, in strain BP, the GLA content increased from 1.2 to 1.6% when cultivated under light-dark cycles. Moreover, in the derived mutant Z19, the GLA content reached 2.4% when cultivated outdoors. To the best of our knowledge, this is the highest GLA content ever reported for any alga.Author for correspondence     

Supercritical CO2 extraction of fungal oil containing γ-linolenic acid

Supercritical CO2 has been used to extract an oil containing -linolenic acid (GLA) from Cunninghamella echinulata. The highest oil recovery from dry biomass (26.4%, w/w) and GLA yield (26.1 g/kg biomass) has been achieved at 30 MPa and 50 °C after 180 min using fungal particles smaller than 0.5 mm and mass flow of 50 kg CO2/kg dry biomass. Extractions with hexane/ethanol and chloroform/methanol methods gave less than 90% of the GLA/kg reached with the supercritical CO2 method.     

Physiological effects of γ-linolenic acid and sesamin on hepatic fatty acid synthesis and oxidation

Interrelated effects of γ-linolenic acid (GLA) and sesamin, a sesame lignan, on hepatic fatty acid synthesis and oxidation were examined. Rats were fed experimental diets supplemented with 0 or 2 g/kg sesamin (1:1 mixture of sesamin and episesamin) and containing 100 g/kg of palm oil (saturated fat), safflower oil rich in linoleic acid, or oil of evening primrose origin containing 43% GLA (GLA oil) for 18 days. In rats fed sesamin-free diets, GLA oil, compared with other oils, increased the activity and mRNA levels of various enzymes involved in fatty acid oxidation, except for some instances. Sesamin greatly increased these parameters, and the enhancing effects of sesamin on peroxisomal fatty acid oxidation rate and acyl-CoA oxidase, enoyl-CoA hydratase and acyl-CoA thioesterase activities were more exaggerated in rats fed GLA oil than in the animals fed other oils. The combination of sesamin and GLA oil also synergistically increased the mRNA levels of some peroxisomal fatty acid oxidation enzymes and of several enzymes involved in fatty acid metabolism located in other cell organelles. In the groups fed sesamin-free diets, GLA oil, compared with other oils, markedly reduced the activity and mRNA levels of various lipogenic enzymes. Sesamin reduced all these parameters, except for malic enzyme, in rats fed palm and safflower oils, but the effects were attenuated in the animals fed GLA oil. These changes by sesamin and fat type accompanied profound alterations in serum lipid levels. This may be ascribable to the changes in apolipoprotein-B-containing lipoproteins.     

Enhancement of γ-linolenic acid production by Mucor ambiguus with nonionic surfactants

Summary -Linolenic acid (GLA) production by Mucor ambiguus IFO 6742, immobilised in Biomass Support Particles (BSPs), has been investigated in a fluidized-bed fermenter in the presence of nonionic surfactants. In this system, repeated batch cultivation was achieved at higher yield and productivity than by conventional methods, since microbial lipids inlcuding GLA were significantly secreted into the culture broth and/or on the surface of the cell wall.     

Production and partial purification of γ-linolenic acid and some pigments fromSpirulina platensis

The polyunsaturated fatty acid -linolenic acid (GLA, 18:36) is of potential pharmaceutical value. The cyanobacteriumSpirulina platensis could become an excellent source for this fatty acid, provided that GLA content could be increased and a GLA concentrate could be obtained at a low cost. Increasing the cell concentration inSpirulina platensis enhanced the fatty acid content and thus the GLA content. This effect was used to further enhance the GLA content of GLA-overproducing strains. Separation of the galactolipids and their purification via urea complexes formation, resulted in a GLA concentrate of over 90% purity.     

The α-linolenic acid content of flaxseed can prevent the atherogenic effects of dietary trans fat

Dietary intake of industrially hydrogenated trans fatty acids (TFA) has been associated with coronary heart disease. Dietary flaxseed can inhibit atherosclerosis induced by dietary cholesterol. The aim of this study was to determine whether supplementing the diet with flaxseed could protect against atherosclerosis induced by a diet enriched in TFA. Low-density lipoprotein receptor-deficient (LDLr(-/-)) mice were fed 1 of 14 experimental diets for 14 wk containing one of two fat sources [regular (pork/soy) or trans fat] at two concentrations (4 or 8%) and supplemented with or without dietary cholesterol (2%), whole ground flaxseed, or one of the components of flaxseed [α-linolenic acid (ALA), defatted fiber, or lignan]. Adding flaxseed to the diet partially mitigated the rise in circulating cholesterol levels induced by the cholesterol-enriched diet. Atherosclerosis was stimulated by TFA and/or cholesterol. Including milled flaxseed to an atherogenic diet significantly reduced atherosclerosis compared with the groups that consumed cholesterol and/or TFA. ALA was the only component within flaxseed that could inhibit the atherogenic action of cholesterol and/or TFA on its own. Dietary flaxseed protects against atherosclerotic development induced by TFA and cholesterol feeding through its content of ALA.     

Lipids of Cunninghamella echinulata with emphasis to γ-linolenic acid distribution among lipid classes

Changes in lipid composition of the oleaginous fungus Cunninghamella echinulata were monitored during growth. Lipid fractions and individual lipid classes varied in amount, relative proportions, and fatty acid profile depending on the developmental stage. Neutral lipids (N), comprised mainly of triacylglycerol, were accumulated in the fungal mycelium during both the late exponential and the stationary growth phases with a concomitant decrease in the amount of polar lipids. While fatty acid composition of N fraction remained almost constant, individual N classes showed a noticeable alteration in γ-linolenic acid (GLA) concentration. The glycolipid plus sphingolipid (G+S) fraction consisted mainly of monoglycosylglycerol and diglycosylglycerol. The sugar composition of G+S fraction was analyzed and showed a partial replacement of galactose for glucose as growth proceeded. Phospholipid (P) major classes were phosphatidylcholine (PC) and phosphatidylethanolamine, followed by phosphatidylinositol, phosphatidylserine, and diphosphatidylglycerol. P fatty acid composition showed significant changes with time, resulting in a considerable drop in the unsaturation index of this fraction. While in mid exponential growth phase, all P classes contained more than 20% w/w GLA of total fatty acids, and their concentration decreased to 12–17% w/w, except for the PC class where GLA concentration remained at high levels (e.g., more than 20% w/w). The constant level of GLA in PC at all growth phases suggests that PC was the major source of GLA. Sterol analysis showed that their concentration increased during growth, whereas ergosterol was the major component.     

Production of γ-linolenic acid by Cunninghamella echinulata cultivated on glucose and orange peel

A newly isolated strain of Cunninghamella echinulata grown on glucose produced significant quantities of biomass and cellular lipids in media with high C/N ratio. The oil yield from glucose consumed increased after nitrogen exhaustion in the growth medium, but gamma-linolenic acid (GLA) content in cellular oil systematically decreased during the lipid accumulation process. When lipid accumulation was completed, GLA concentration in the cellular lipids progressively increased. The highest GLA production (720 mg/l) was achieved in medium with a C/N ratio equal to 163. C. echinulata was also able to grow on orange peel. The C/N ratio in the orange peel decreased from 50 to 26 during solid-state fermentation. Maximum oxygen uptake was observed during assimilation of reducing sugars, whereas a polygalacturonase activity was detected after reducing sugars had been exhausted. The maximum GLA production was 1.2-1.5 mg/g of fermented peel, calculated on a dry weight basis. After enrichment of the pulp with inorganic nitrogen and glucose, an increase in the production of oil and GLA was observed.     

Effect of propionic acid on citric acid fermentation in an integrated citric acid–methane fermentation process

In this study, an integrated citric acid-methane fermentation process was established to solve the problem of wastewater treatment in citric acid production. Citric acid wastewater was treated through anaerobic digestion and then the anaerobic digestion effluent (ADE) was further treated and recycled for the next batch citric acid fermentation. This process could eliminate wastewater discharge and reduce water resource consumption. Propionic acid was found in the ADE and its concentration continually increased in recycling. Effect of propionic acid on citric acid fermentation was investigated, and results indicated that influence of propionic acid on citric acid fermentation was contributed to the undissociated form. Citric acid fermentation was inhibited when the concentration of propionic acid was above 2, 4, and 6 mM in initial pH 4.0, 4.5 and, 5.0, respectively. However, low concentration of propionic acid could promote isomaltase activity which converted more isomaltose to available sugar, thereby increasing citric acid production. High concentration of propionic acid could influence the vitality of cell and prolong the lag phase, causing large amount of glucose still remaining in medium at the end of fermentation and decreasing citric acid production.     

Production of γ-linolenic acid by the fungus Mucor rouxii in fed-batch and continuous culture

Summary The production of -linolenic acid (GLA) and lipid was studied in Mucor rouxii CBS 416.77. In a fed-batch culture productivities of 39.4 mg/l per hour for GLA and 99 mg/l per hour for the total amount of lipid were determined at 18 h of cultivation. At this point the highest value of GLA in lipid (39.7%, w/w) was also reached. Production of GLA was also studied in a series of continuous cultures. It was observed that, in addition to growth rate, the nitrogen concentration of the input medium was of great importance for high productivities. The highest productivity values for GLA (37 mg/l per hour) and for lipid (95 mg/l per hour) were reached at a dilution rate of 0.10 h^-1 with a concentration of 4.5g/l NH₄Cl in the input medium.     

The production of γ-linolenic acid by selected members of the Dikaryomycota grown on different carbon sources

In this study, seven fungal strains, representing different phylogenetic groups within the Dikaryomycota, were tested for the presence of -linolenic acid [18:3(6)], when grown in synthetic liquid media devoid of fatty acids, on a series of 40 different carbon sources. The fungal strains represented the species Dipodascopsis uninucleata, Eurotium rubrum, Galactomyces geotrichum, Neurospora crassa, Saccharomyces cerevisiae, Spongipellis unicolor and Talaromyces flavus. Cultures were periodically harvested during growth and the fatty acids in the total lipids analysed as methyl esters, using gas chromatography and mass spectrometry. It was found that 18:3(6) is present in E. rubrum CBS 350.65, S. unicolor CBS 117.16 and in T. flavus CBS 310.38NT, when these strains were grown on certain carbon sources. No correlation between the growth phase of the organism and the presence of 18:3(6) could be detected. In order to confirm the production of 18:3(6), the lipid metabolism of two unrelated dikaryomycotan fungi (S. unicolor CBS 117.16 and E. rubrum CBS 350.65) grown on two different carbon sources each, was examined. Cultures of E. rubrum CBS 350.65 were grown on glucose and sorbose and cultures of S. unicolor CBS 117.16 on glucose and sucrose in synthetic liquid media with a C:N ratio of 50:1 (w/w). The total lipids of these cultures were fractionated and the fatty acids in the fractions analysed as methyl esters, using gas chromatography and mass spectrometry. The lipid metabolism of both E. rubrum CBS 350.65 and S. unicolor CBS 117.16 differed on the two carbon sources used. The ab initio production of 18:3(6) by E. rubrum CBS 350.65 in synthetic liquid media was confirmed. In contrast, the ab initio production of 18:3(6) by S. unicolor CBS 117.16 in synthetic liquid media could not be confirmed.     

Effect of culture conditions on mycelial growth and production of γ-linolenic acid by the fungus Mortierella ramanniana

Summary Effect of culture conditions on cell growth, lipid accumulation and -linolenic acid production is reported for four Mortierella species. The highest concentration as well as the highest productivity of -linolenic acid in lipid was determined in strains of M. ramanniana. M. ramanniana CBS 112.08 was used in the studies of the influence of medium composition, concentration of carbon- and nitrogen sources and growth temperature. Several carbon sources provided good growth and a high lipid content in biomass. The highest dry weights (11–12g/l) and lipid contents (24%, w/w), were observed if glucose or fructose was used as carbon source, whereas the highest amount of -linolenic acid (26%) was determined in starch-grown cells. The fatty acid composition in the lipid was influenced by the cultivation time, growth temperature and, to a minor extent, by the carbon source used. In fermentor cultures, both strains of Mortierella ramanniana showed relatively poor growth and incomplete consumption of glucose. M. vinacea, on the other hand, grew well in tower reactors. M. vinacea, which has a different morphology than M. ramanniana strains, also showed higher yields of biomass and lipid and higher yield coefficients than the latter.     

Involvement of sialic acid in the regulation of γ--aminobutyric acid uptake activity of γ-aminobutyric acid transporter 1

The γ-aminobutyric acid (GABA) transporters (GATs) have long been recognized for their key role in the uptake of neurotransmitters. The GAT1 belongs to the family of Na(+)- and Cl(-)-coupled transport proteins, which possess 12 putative transmembrane (TM) domains and three N-glycosylation sites on the extracellular loop between TM domains 3 and 4. Previously, we demonstrated that terminal trimming of N-glycans is important for the GABA uptake activity of GAT1. In this work, we examined the effect of deficiency, removal or oxidation of surface sialic acid residues on GABA uptake activity to investigate their role in the GABA uptake of GAT1. We found that the reduced concentration of sialic acid on N-glycans was paralleled by a decreased GABA uptake activity of GAT1 in Chinese hamster ovary (CHO) Lec3 cells (mutant defective in sialic acid biosynthesis) in comparison to CHO cells. Likewise, either enzymatic removal or chemical oxidation of terminal sialic acids using sialidase or sodium periodate, respectively, resulted in a strong reduction in GAT1 activity. Kinetic analysis revealed that deficiency, removal or oxidation of terminal sialic acids did not affect the K(m) GABA values. However, deficiency and removal of terminal sialic acids of GAT1 reduced the V(max) GABA values with a reduced apparent affinity for extracellular Na(+). Oxidation of cell surface sialic acids also strongly reduced V(max) without affecting both affinities of GAT1 for GABA and Na(+), respectively. These results demonstrated for the first time that the terminal sialic acid of N-linked oligosaccharides of GAT1 plays a crucial role in the GABA transport process.     

Effects of prefermented cereal-derived substrates (ground barley and rye bran) enriched with fungal γ-linolenic acid on rumen fermentation parameters and lipid metabolism in vitro

Aims: To increase rumen output of γ‐linolenic acid (GLA), we used two cereal‐derived substrates, ground barley (GB) and rye bran (RB), enriched with fungal GLA as components of feed rations. We examined their effects on rumen fermentation patterns, lipid metabolism and the ciliated protozoan population in an artificial rumen. Methods and Results: Four diets consisting of meadow hay (MH) plus unfermented (GB or RB) or prefermented (GB ? TE or RB ? TE) cereal‐derived substrates were fermented in an artificial rumen with ovine rumen inoculum. The cereal‐derived substrates were prefermented with the fungus Thamnidium elegans (TE) by fungal solid‐state fermentation. The diets with TE increased the rumen input of dietary GLA (mg day^?1) from 0 to 21 (GB ? TE) or 26 (RB ? TE). Both experimental diets increased the rumen output of GLA (P < 0·001). Adverse effects on the ciliate population were observed. Both diets also had an effect on the fatty acids profile. Fermentation patterns were also affected with MH + RB ? TE. Conclusion: Cereal‐derived substrates enriched with GLA effectively enhanced the output of GLA in artificial rumen. Significance and Impact of the Study: The ability of the fungal strain T. elegans to grow and utilize various agro‐industrial substrates might be useful in developing potential new animal diets enriched in GLA.     

<Emphasis Type="Italic">Rhizopus arrhizus</Emphasis> – a producer for simultaneous saccharification and fermentation of starch waste materials to l(+)-lactic acid

Rhizopus arrhizus, strain DAR 36017, produced L(+)-lactic acid in a simultaneous saccharification and fermentation process using starch waste effluents. Lactic acid at 19.5-44.3 g l(-1) with a yield of 0.85-0.96 g g(-1) was produced in 40 h using 20-60 g starch l(-1). Supplementation of nitrogen source may be unnecessary if potato or corn starch waste effluent was used as a production medium.