Influence of some oils and surfactants on ligniolytic activity,growth and lipid fatty acids of Phanerochaete chrysosporium

Summary Ligninase production by Phanerochaete chrysosporium MZKIBK-B 186 was increased when the culture medium was supplemented with an emulsion of oleic acid. Addition of linseed oil enhanced fungal biomass synthesis. Under the growth conditions used in our tests, the fungus was capable of accumulating fatty acids from the culture medium into cell lipids. Addition of oleic acid, Tween 80, or 3-[(cholamidopropyl)-dimethylammonio]-1-propanesulphonate (CHAPS), which are known to increase ligninase production by fungi, resulted in oleic acid enrichment of whole cell and polar lipids. Offprint requests to: D. Le相似文献   

Control of Lignin Peroxidase Production by Phanerochaete chrysosporium INA-12 by Temperature Shifting

There are two temperature optima connected with lignin peroxidase synthesis by Phanerochaete chrysosporium INA-12. One, at 37°C, is for the mycelium-growing phase; the other, at 30°C, is for the lignin peroxidase-producing phase. One of six extracellular proteins with ligninase activity increased when cultures were grown at 30°C for the entire fermentation period or when cultures were grown at 37°C for the first 2 days of incubation and then shifted to 30°C, compared with the activity of control cultures grown at 37°C for the entire fermentation period. The unsaturation of fatty acid (Δ/mole) of P. chrysosporium INA-12 mycelium decreased from 1.25 to 1.03 when the growth temperature was shifted from 20 to 40°C.     

Enzyme catalysed production of vegetable oils containing omega-3 polyunsaturated fatty acid

Summary The application of enzymatic interesterification for production of vegetable oils containing omega-3 polyunsaturated fatty acids was investigated. Six veteable oils were used as substrates, together with omega-3 polyunsaturated fatty acid, and reactions were catalysed by immobilized Mucor miehei lipase in organic solvent. The degree of incorporation of eicosapentaenoic acid and docosahexaenoic acid into corn oil, sunflower oil, peanut oil, olive oil and soybean oil were 17.71, 17.59, 16.79, 14.89, 13.91 and 10.48%, respectively, after a 12 h incubation period.     

Sophorolipid production by <Emphasis Type="Italic">Candida bombicola</Emphasis> on oils with a special fatty acid composition and their consequences on cell viability

Sophorolipids production by the yeast Candia bombicola is most favourable when glucose is used as a carbon source in combination with a hydrophobic carbon source such as a common vegetable oil. Most vegetable oils are comprised of C16–C18 fatty acids, an ideal range for sophorolipid production. The use of oils with either shorter or longer fatty acids, such has coconut oil or meadowfoam oil, respectively, was evaluated. Such oils did not contribute to enhanced sophorolipid production when compared to cultures run on glucose as the sole carbon source. Moreover, a toxic effect of medium-chain fatty acids towards stationary C. bombicola cells was demonstrated.     

Increased endoplasmic reticulum content of Phanerochaete chrysosporium INA-12 by inositol phospholipid precursor in relation to peroxidase excretion

Summary Haem protein excretion (i.e., lignin and manganese-dependent peroxidases) by Phanerochaete chrysosporium INA-12 was improved in response to an exogenous supply of phospholipid components (inositol and linoleic acid) as well as phosphatidylinositol (PI). Maximal enzyme productions were 46.3 and 21.1 nkat · ml^–1, respectively, in inositol cultures after 3 days incubation. Cellular compartment determination by marker enzymes revealed that the enhancement of protein excretion with inositol was correlated with a proliferation of endoplasmic reticulum; cytosol and mitochondrial activity did not change. In contrast, in the presence of linoleic acid and PI total cellular activity was increased. In culture containing inositol, the intracellular phospholipid composition of strain INA-12 mycelium exhibited a two fold enrichment in PI at the expense of phosphatidylserine and its derives, phosphatidylethanolamine and phosphatidylcholine. Offprint requests to: M. Asther     

Semi-continuous ligninase production using foam-immobilised Phanerochaete chrysosporium

Summary The immobilisation of Phanerochaete chrysosporium in cubes of polyurethane foam enables ligninase to be produced on a semi-continuous basis. At each successive harvest, cultures are purged with oxygen and ligninase activity induced with veratryl alcohol. Using 200 ml of a five-fold dilution of the batch culture medium in 1l flasks, harvests of ligninase with the same apparent protein profile by SDS-polyacrylamide gel electrophoresis (SDS-PAGE) are obtained every 24 to 48 h.It is also possible to store cubes of foam containing pellets of P. chrysosporium so that further yields of ligninase comparable to fresh cultures can be produced within 48 h when desired.     

Production of Phanerochaete chrysosporium lignin peroxidase under various culture conditions

Lignin peroxidase production by the white-rot fungus Phanerochaete chrysosporium is markedly influenced by the buffer system employed. In immobilized P. chrysosporium cultures with carbon-limited glucose medium, the use of acetate buffer resulted in higher lignin peroxidase activities than tartrate. With acetate as the buffer in shake-flask cultures a 20% to over 100% improvement in lignin peroxidase production was obtained as compared to tartrate-buffered systems. Of trace elements, Cu²⁺, Mn²⁺ and Zn²⁺ seemed to have the greatest influence on lignin peroxidase production. Furthermore, an increase in the Cu²⁺ and Zn²⁺ concentrations resulted in considerably higher ligninase activities. Although it has been shown previously that high manganese levels repress ligninase production, for maximum ligninase production the presence of some Mn²⁺ appeared to be necessary. The concentration of phosphorus had surprisingly little effect on ligninase production. Highest lignin peroxidase activities were obtained with lower phosphorus concentrations, but reasonably high activities were obtained within the whole studied phosphorus range of 0.12–4.60 g l^–1. Diammonium tartrate alone was a better nitrogen source than a mixture of diammonium tartrate, proteose peptone and yeast extract. The addition of solid manganese (IV) oxide to 3-day-old immobilized biocatalyst cultures increased the maximum ligninase activity obtained by about one-third. Correspondence to: S. Linko     

Activation of lignin and manganese peroxidase excretion in Phanerochaete chrysosporium by fungal extracts

Summary Lignin (LiP) and manganese peroxidase (MnP) excretion by Phanerochaete chrysosporium INA-12 was significantly increased in response to fungal extract supplementation. LiP and MnP production was increased 1.7- and 1.8-fold, respectively, with fungal extracts from agitated pellet cultures of strain INA-12, namely fungal extracts P₆ and P₄. In cultures supplemented with a fungal extract harvested from static cultures of strain INA-12 (fungal extract S₄), LiP and MnP production was increased 1.8- and 1.6-fold, respectively. Succinate dehydrogenase activity, a mitochondrial marker, was significantly enhanced (2.7-fold) in cultures with the addition of fungal extracts. Correspondence to: M. Asther     

Production of 7,10-dihydroxy-8(<Emphasis Type="Italic">E</Emphasis>)-octadecenoic acid from olive oil by <Emphasis Type="Italic">Pseudomonas aeruginosa</Emphasis> PR3

Microbial modification of naturally occurring materials is one of the efficient ways to add new values to them. Hydroxylation of free unsaturated fatty acids by microorganism is a good example of those modifications. Among microbial strains studied for that purpose, a new bacterial isolate Pseudomonas aeruginosa PR3 has been well studied to produce several hydroxy fatty acids from different unsaturated fatty acids. Of those hydroxy fatty acids, 7,10-dihydroxy-8(E)-octadecenoic acid (DOD) was efficiently produced from oleic acid by strain PR3. However, it was highly plausible to use vegetable oil containing oleic acid rather than free oleic acid as a substrate for DOD production by strain PR3. In this study, we firstly tried to use olive oil containing high content of oleic acid as a substrate for DOD production. DOD production from olive oil was confirmed by structural determination with GC, TLC, and GC/MS analysis. DOD production yield from olive oil was 53.5%. Several important environmental factors were also tested. Galactose and glutamine were optimal carbon and nitrogen sources, and magnesium ion was critically required for DOD production from olive oil. Results from this study demonstrated that natural vegetable oils containing oleic acid could be used as efficient substrate for the production of DOD by strain PR3.     

Determination of ligninase activity in P. chrysosporium pellets with diffuse reflectance spectrophotometry

Diffuse reflectance spectrophotometry was applied for measuring ligninase activity in pellets of Phanerochaete chrysosporium. Enhanced ligninase activity in pellets and in growth medium were detected in cultures supplemented with oleic acid emulsified with Tween 80, Tween 80, hydrophilic (alcoholic) residue of Tween 80 hydrolysate, Tween 20, and (15OE)C_18:1. In cultures with low extracellular ligninase activity, low activity in pellets was also observed. Our results indicate that the stimulatory effect of the tested surfactants cannot be contributed solely to promotion of ligninases through the cell membrane. Correspondence to: D. Letan     

Influence of water activity on the ice-nucleating activity of Pseudomonas syringae

Pseudomonas syringae is known as a biological ice-nucleating agent. The bacterium has the unusual property of increasing the temperature at which water freezes by a few degrees. However, the ice-nucleating activity (INA) always remains lower for in vitro cultivated cells, than for cells grown in planta. We examined the effects of the hydrophobic environment and of water availability, on the in vitro growth and INA of P. syringae. The hydrophobic environment was modified by addition of fatty acids, vegetable oils or silicone oil to the culture medium. Addition of olive oil (1%), or traces of silicone oil in the culture medium had a positive effect upon the expression of INA. Variations in water activity from 0.990 to 0.988 by addition of sugar beet fibres or sodium chloride in the culture medium were followed by an increase in INA. This study suggested that control of the medium’s water activity must be considered as an important parameter for optimization of INA in P. syringae. Received 16 June 1998/ Accepted in revised form 02 September 1999     

Influence of Veratryl Alcohol and Hydrogen Peroxide on Ligninase Activity and Ligninase Production by Phanerochaete chrysosporium

Veratryl alcohol, added as a supplement to cultures of Phanerochaete chrysosporium, enhanced ligninase activity through protection of the ligninase against inactivation by hydrogen peroxide produced by this fungus in cultures. In the presence of veratryl alcohol, the loss of ligninase activity observed in non-protein-synthesizing cultures (cycloheximide-treated) equaled the extracellular protein turnover. When cultures were not supplemented with veratryl alcohol, inactivation of ligninase by hydrogen peroxide added to protein turnover, resulting in a more rapid loss of ligninase activity. Although all ligninase isoenzymes are sensitive to inactivation by hydrogen peroxide, only the isoenzyme of the highest specific activity (80.6 nkat · mg of protein⁻¹; M_r, 41,800; pI, 3.96) was found to be protected by veratryl alcohol. The concentration of veratryl alcohol necessary for full protection of ligninase activity varied according to the concentration of hydrogen peroxide present in the medium, which depended on the nature of the carbon source (glucose or glycerol). It is proposed that the nature of the carbon source influences the overall ligninase activity not only directly, by affecting the rate and the type of synthesized ligninase, but also by affecting the rate of hydrogen peroxide production, bringing about different rates of inactivation.     

Isolation of a yeast growing on sardine oil and its characteristics

A yeast strain, FO-144Cl, was isolated from a soil sample, using crude sardine oil, which contains a large quantity of poly-unsaturated long-chain fatty acids, as a sole carbon source. This strain was identified as a species of Candida. A medium for its growth was optimized by statistical methods and optimal temperature for the growth was from 28 to 30°C. Among the natural oils and fats tested, the yeast grew best on olive oil and grew better on the crude sardine oil than on a refined one. The yield of dry cells was 17.6 mg/ml after 24 h, using 2% crude sardine oil. The maximum growth rate was 0.36, 0.25, and 0.21 h⁻¹ with crude sardine oil, soybean oil, and olive oil, respectively. The content of crude fat in the yeast cells was 15.1% and half of the total cell lipid was triglyceride. Fatty acid compositions of the lipid and oily fractions left in the medium after cultivation were analyzed. Little unsaturated long-chain fatty acids (>C₁₈) was observed in the cell lipids, but they were left concentrated in the medium.     

Lipase Induction in Mucor hiemalis

The influence on lipase induction in Mucor hiemalis of different types of triglycerides containing mainly oleic acid (olive oil), erucic acid (mustard oil), or saturated fatty acids of 8 to 16 carbons (coconut oil) was studied. The fungus was grown in shake flasks in a fermentation medium containing peptone, minerals, and glucose or one of the oils as the carbon source. Maximum lipase was produced when the initial pH of the fermentation medium was kept at 4.0. Addition of Ca²⁺ to the medium did not increase lipase production. The optimum pH for activity of both the mycelial and extracellular lipases was found to be 7.0. The fungus produced a significant amount of lipase in the presence of glucose, but the lipase activity increased markedly when olive oil was added to the medium at the beginning of the fermentation. Addition of olive oil at a later stage did not induce as much enzyme. Studies with washed mycelia showed that a greater amount of lipase was released when olive oil was present than when glucose was present. Among the various types of triglycerides used as the carbon source, olive oil was found to be most effective in inducing the lipase. Olive oil and mustard oil fatty acids inhibited the lipase more than those of coconut oil. The lipase induced by a particular type of triglyceride did not seem to be specific for the same triglyceride, nor was it inhibited specifically by it. Irrespective of the triglyceride used in the fermentation medium, the lipase produced was most active against coconut oil triglyceride, and this specificity, as shown by lipase activities in an n-heptane system, was not found to be due to a better emulsification of this oil. The lipase of M. hiemalis can be considered to be both constitutive and inducible.     

The effects of maternal dietary treatments with natural PPAR ligands on lipid metabolism in fetuses from control and diabetic rats

Maternal diabetes impairs fetal development and growth. We studied the effects of maternal diets enriched in unsaturated fatty acids capable of activating peroxisome proliferator-activated receptors (PPARs) on the concentrations of 15deoxyΔ^12,14PGJ₂ (15dPGJ₂), lipid mass, and the de novo lipid synthesis in 13.5-day fetuses from control and diabetic rats. Diabetes was induced by neonatal streptozotocin administration (90 mg/kg). Rats were treated with a standard diet supplemented or not with 6% olive oil or 6% safflower oil from days 0.5 to 13.5 of gestation. Fetuses from diabetic rats fed with the standard diet showed reduced 15dPGJ₂ concentrations, whereas maternal treatments with olive and safflower oils increased 15dPGJ₂ concentrations. Fetuses from diabetic rats showed increased concentrations of phospholipids and increased synthesis of triglycerides, phospholipids, cholesterol and free fatty acids. Diabetic rat treatments with olive and safflower oils reduced phospholipids, cholesterol, and free fatty acid concentrations and the de novo lipid synthesis in the fetuses. These effects were different from those observed in fetuses from control rats, and seem not to involve PPARγ activation. In conclusion, olive oil- and safflower oil-supplemented diets provide beneficial effects in maternal diabetes, as they prevent fetal impairments in 15dPGJ₂ concentrations, lipid synthesis and lipid accumulation.     

Influence of Exogenous Natural Oils on the ω-1 and ω-2 Hydroxy Fatty Acid Moiety of Sophorose Lipid Produced by Candida bombicola

Candida bombicola can synthesize monohydroxy fatty acid as a moiety of sophorose lipids. The hydroxy fatty acids contained in a major lactone were identified by GC-MS, after culturing with natural oils such as coconut, rapeseed, olive, and soybean oils. Hydroxy fatty acids of C18 and C16 were always synthesized, but differences were observed among the oils regarding the positions of hydroxyl groups, unsaturation, and composition of the fatty acids. A new C17 hydroxy acid was found without addition of oil.     

Content of Fatty Acids and Phenolics in Coratina Olive Oil from Tunisia: Influence of Irrigation and Ripening

The quality indices and chemical composition of Coratina olive oil produced in the northern region of Tunisia were evaluated, to determine the effect of three different irrigation regimes of the trees on the olive oils. The olives were sampled at two different stages of maturity, the oils were extracted, and standard methods were used to analyze the composition and quality of the oils. The fatty‐acid contents and quality parameters were only slightly affected by the irrigation regime. The contents of palmitic, oleic, and linoleic acids were above 12, 72, and 8%, respectively, for the second harvest, regardless of the irrigation level of the olive trees. Parameters such as the α‐tocopherol content and the phenolic profile were found to be significantly affected by the harvesting time; however, inconsistent changes were observed for the irrigation regimes, especially for the oil of the second harvest. It was shown that the irrigation conditions of the olive trees as well as the harvesting time of the fruits gave rise to a diverse range of olive oils in Tunisia.     

Effects of different dietary fatty acids profiles on the growth performance and body composition of juvenile tench (<Emphasis Type="Italic">Tinca tinca</Emphasis> (L.))

Juvenile tench (initial weight of about 57 g) were fed feed supplemented with fish oil (group FO), linseed oil (group LO), peanut oil (group PO), or rapeseed oil (group RO) containing 47% protein and 12% fat for 55 days. The inclusion of the tested oils was 50 g kg⁻¹ (42% total crude lipids in diets). No significant differences were noted in the fish growth performance. The proximate composition of the whole fish bodies and the viscera (water, protein, fat, ash) was similar in all the dietary treatments (P > 0.05). Differences were noted only with regard to the ash content of the fillets (P < 0.05). The analysis of the fatty acids profiles of tench (whole fish) indicated there were significant differences in the total content of monoenoic and polyenoic (PUFA) acids. Significant differences were also noted with regard to n-3 PUFA and n-6 PUFA. Consequently, the ratio of n-3/n-6 acids ranged from 1.6 (group PO) to 2.08 (group LO; P < 0.05). The feed applied was not confirmed to have had an impact on the fatty acids profile of the tench fillets. There was a statistically significant intergroup difference in the content of saturated fatty acids (SFA) in tench viscera. In the fish fed vegetable oils supplemented diets, the level of SFA was lower (P < 0.05).     

Physicochemical properties of cold pressed sunflower,peanut, rapeseed,mustard and olive oils grown in the Eastern Mediterranean region

Fatty acid composition and stability of vegetable oils have taken more attention as an essential source of biologically active compounds in a good balanced diet. The purpose of the study was to determine peroxide value, free fatty acids, unsaponifiable matter, total carotenoid content, iodine value and fatty acid composition of sunflower, rapeseed, mustard, peanut and olive oils. Rapeseed and peanut oils had the highest peroxide values, while sunflower oil had the lowest peroxide values. The free fatty acid value of the tested oils varied between 0.43 and 1.36% oleic. The peanut oil had the highest free acid value and the mustard oil had the lowest one. Total carotenoid contents of mustard and rape seed oil were higher than those of the other oils tested. Palmitic acid (C16:0), oleic acid (C18:1) and stearic acid (C18:0) were the common main fatty acid components of the vegetable oils tested. Followed by linoleic acid, the amount of oleic acid was the highest among other fatty acid components. Mustard oil had the highest erucic acid (C22:1) with the amount of 11.38%, indicating that it cannot be used for human consumption. Among the oils investigated, sunflower and mustard oils were more stable than rapeseed, peanut and olive oils.     

Utilization of vegetable oil in the production of clavulanic acid by <Emphasis Type="Italic">Streptomyces clavuligerus</Emphasis>ATCC 27064

Production of clavulanic acid (CA) by Streptomyces clavuligerus ATCC 27064 in shake-flask culture (28 °C, 250 rev min^–1) was evaluated, with media containing different types and concentrations of edible vegetable oil. Firstly, four media based on those reported in the literature were examined. The medium containing soybean oil and starch as carbon and energy source gave the best production results. This medium, with the starch replaced by glycerol, and with various soybean oil concentrations (16, 23 and 30 g l^–1) was utilized to further investigate CA production. Medium containing 23 g l^–1 led to the highest CA productivity (722 mg l^–1 in 120 h) and that one containing 30 g l^–1 gave the highest CA titre (753 mg l^–1 in 130 h). Also, substitution of corn and sunflower edible oils furnished similarly good results in terms of CA titre and productivity. It can be concluded that easily available vegetable oil is a very promising substrate for CA production, since it is converted slowly to glycerol and fatty acids, which are the main carbon and energy source for the microorganism.