Production of tylosin byStreptomyces fradiae in palm oil medium

Streptomyces fradiae (NRRL 2702) produced tylosin when cultured on a synthetic defined medium M3. Palm oil, palm kernel oil and their fractions, as well as fatty acids and glycerol were investigated to serve as the major carbon source in shake flask culture. The lipids, glycerol and fatty acids, particularly palmitic acid but not oleic or lauric acid, were suitable for growth and tylosin production. For palmitic acid, at 168 h, the dry cell yield and tylosin production were 8.9 mg/ml and 0.84 mg/g cell mass respectively.     

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   

Modification of physiological properties in Saccharomyces uvarum and Kluyveromyces bulgaricus grown in presence of polyoxyalkylene glycoĺ-oleic acid condensates

Summary Condensates of polyoxyalkylene glycol of diverse molecular weight esterified by oleic acid, used as antifoam agents in fermentors, were tested on Saccharomyces uvarum and Kluyveromyces bulgaricus. These compounds, used at a concentration of 0.1% (V/V) in the culture medium, stimulated the aerobic growth of the yeasts, and adding oleic acid (up to a concentration of 0.005% V/V in the medium) to the antifoam compounds further increased the final biomass.the presence of the antifoam agents during the development of yeasts increased their viability at the end of the culture and reinforced this viability for a further conservation by freezing. Antifoam agents also stimulated respiration in K. bulgaricus and to a lesser degree in S. uvarum. Flocculation of both yeasts was decreased.Over and above their physico-chemical foam — inhibiting action, polyoxyalkylene glycol compounds had a beneficial effect on the metabolism of yeasts. These compounds have a more positive action on yeasts than colza oil, another industrial antifoam agents.     

Stability studies and effect of the initial oleic acid concentration on lipase production by Candida rugosa

The production of lipase by Candida rugosa in batch cultures was studied. The initial concentration of the carbon source employed, oleic acid, had an important effect on the final lipolytic activity levels. The maximum lipase/substrate yield and specific productivity obtained correspond to an initial oleic acid concentration of 2 g/l. At higher concentrations, up to 8 g/l oleic acid, specific productivity decreased. Lipase production was not observed below 1 g/l oleic acid. Lipase inactivation in culture broth due to surface forces and shear stress at the gas/liquid interface was not observed. There was no shear stress denaturation at stirring rates of 250, 500 and 750 rpm. No temperature inactivation was detected up to 50° C. Two different lipases with a similar molecular weight of 60kDa were purified from culture broth.     

Stabilization of water-in-oil emulsion by <Emphasis Type="Italic">Rhodococcus opacus</Emphasis> B-4 and its application to biotransformation

Rhodococcus opacus B-4, which has recently been isolated as an organic solvent-tolerant bacterium, stabilized water-in-oil (w/o) emulsions by inhibition of droplet coalescence when the cells were dispersed in 90% (v/v) organic solvents. Confocal microscopy revealed that many bacterial cells assembled at the interface between oil and water droplets, though free cells were also detectable at the inside of water droplets. Bacterial cells in the w/o emulsion were capable of utilizing both a water-soluble (glucose) and an oil-soluble substrate (oleic acid) as an energy source. Availability of the w/o emulsion as an immobilized cell system in organic solvents was demonstrated using production of indigo from indole and production of o-cresol from toluene as model conversions. When glucose and oleic acid were simultaneously supplied as energy sources, the w/o emulsion culture of R. opacus B-4 produced indigo and o-cresol at levels of 0.217 and 2.12 mg ml⁻¹, respectively, by 12 h.     

Effect of Oleic Acid on Oenococcus oeni Strains and Malolactic Fermentation in Wine

A different capability to assimilate oleic acid from the culture medium has been demonstrated among malolactic Oenococcus oeni strains. Strains possessing higher percentages of oleic acid and its methylated derivative, dihydrosterculic acid, in their fatty acid profile showed higher cell viability and carried out a complete malolactic fermentation after their transfer into a wine lacking oleic acid. Wine supplementation with Tween 80 (polyoxyethylene-sorbitan-mono-oleate) enhanced cell survival of strains with lower capability to assimilate oleic acid and caused cell growth of strains with higher assimilative capacity, suggesting that oleic acid may act in wine as a survival factor for the former strains and as a growth factor for the latter strains. Practical consequences of these findings are also discussed. Received: 24 March 2001 / Accepted: 25 April 2001     

Effects of organic solvents on membrane of<Emphasis Type="Italic">Taxus cuspidata</Emphasis> cells in

The effects of organic solvents (oleic acid and dibutyl phthalate) on viability and membrane integrity of Taxus cuspidata cells were investigated in two-liquid-phase suspension cultures. It has been found that the cell viability, electrical conductivity and concentration of malonyl dialdehyde did not change obviously when the content of oleic acid or dibutyl phthalate was 2% (v/v), but varied markedly when the contents of oleic acid or dibutyl phthalate were raised to 6% (v/v) or more, indicating that the organic solvents at higher concentrations severely affected the cell membrane permeability.     

Lipids in Cruciferae

The effect of nitrogen, phosphorus and potassium nutrition on average seed weight, oil content and fatty acid composition of rape seed (Brassica napus) grown in soil-free culture has been studied. Nitrogen effected an increase in seed weight and a decrease in oil content, while the average amount of oil per seed remained constant. A small, but highly significant, decrease in palmitic and eicosenoic acid content, a significant decrease in oleic acid and a highly significant increase in erucic acid content were observed. This suggests that a decrease in the extent of elongation of oleic acid to erucic acid occurs in seeds developing on plants with sub-optimal levels of nitrogen nutrition. Phosphorus and potassium had very limited effects on fatty acid composition. Significant differences were found only in oleic acid content for phosphorus alone, the nitrogen-phosphorus interaction and the phosphorus-potassium interaction. The effect of various levels of sulfate at optimal levels for nitrogen, phosphorus and potassium, was studied in a separate experiment. Seed from sulfur-starved plants had decreased oil content; oleic acid percentages were increased and erucic acid percentages decreased. Excessive amounts of sulfate had no effect on fatty acid composition.     

A novel biocatalytic approach to acetylation of 1-β-<Emphasis Type="SmallCaps">d</Emphasis>-arabinofuranosylcytosine by <Emphasis Type="Italic">Aspergillus oryzae</Emphasis> whole cell in organic solvents

Biocatalytic acylation of 1-β-d-arabinofuranosylcytosine (ara-C) was developed using whole cell of Aspergillus oryzae as a novel catalyst. ¹³C nuclear magnetic resonance (NMR) analysis indicated that the whole-cell biocatalyst had more specific activity toward the 3′-hydroxyl group than 5′-hydroxyl group among the available hydroxyl groups in sugar moiety of ara-C. Except for glucose and maltose, 11 carbon sources supplemented to basal media, including Spans, Tweens, olive oil and oleic acid, exhibited notable enhancement effects on both the cell growth and the acylation reactions. It was suggested that the carbon sources containing controlled-release oleic acid were the important substrates for the production of fungal cell-bound lipase with specific activity, partially due to a gradual induction effect of their released oleic acid on the cell-bound lipase production. Despite the low initial reaction rate and substrate conversion, the addition of 2.0 g/l Span 80 resulted in a higher 3′-regioselectivity of the cells than 81%. By using Tween 85 at its optimum concentration of 5.0 g/l, however, the highest initial rates (3.2 mmol/l h) and substrate conversion (76%) of the whole-cell catalyzed acylation of ara-C can be achieved. It was also found that the 3′-regioselectivity of the cells showed observable increase by extending the culture time. And the activity of cell-bound lipase drastically increased in the early stage of cell growth and then declined in the late culture stage, whatever the culture media used. Our results thus indicated that A. oryzae whole cell was a promising green tool for biosynthesis of nucleoside esters with potential bioactivities.     

Oil production from five marine microalgae for the production of biodiesel

Marine microalgae were studied as potential resources for the production of biodiesel. Five marine microalgae, Tetraselmis suecica, Phaeodactylum tricornutum, Chaetoceros calcitrans, Isochrysis galbana, and Nannochloropsis oculata were cultured in f/2 media, 12:12 L:D cycle at 20 ± 1°C with a light intensity of 36.3 μmol/m²/sec using a 15-L circular cylindrical photobioreactor. The dry cell weight, specific growth rate, biomass productivity, oil content and fatty acid composition of palmitic acid, stearic acid, oleic acid, linoleic acid, and linolenic acid of microalgae were determined. T. suecica, I. galbana, and N. oculata showed high dry cell weights of 0.58, 0.57, and 0.57 g/L, respectively. The culture period of T. suecica to reach the stationary phase was 9 days. On the other hand, N. oculata showed the longest culture period of 28 days to reach the stationary phase. T. suecica absorbed nitrate at the initial stages of cell growth, decreasing the nitrate concentration to 0.5 mg/L on day-7 of the culture. The highest oil contents were observed in P. tricornutum with a 25.31% dry cell weight and I. galbana with a 23.15% dry cell weight on day-9 after the stationary phase. I. galbana showed 417.33 mg of palmitic acid per g oil and T. suecica showed 235.61 mg of oleic acid per g oil. Stearic acid, linoleic acid, and linolenic acid did not exceed 30.02 mg/g oil in any of the microalgae. T. suecica showed the shortest culture period of 9 days to reach the stationary phase. Therefore, the highest biomass production of 0.58 g/L was obtained and I. galbana showed high biomass production of 0.57 g/ L and oil content of 23.15% of dry cell weight. Therefore, T. suecica and I. galbana can be selected as a potential candidate for the production of biodiesel.     

Effect of non-esterified fatty acids on bovine theca cell steroidogenesis and proliferation in vitro

Elevated serum non-esterified fatty acid (NEFA) levels associated with a negative energy balance (NEB) may affect ovarian function and hence reproductive performance in high-yielding dairy cows. We have investigated the individual and combined effects of the three major NEFAs on bovine theca cell proliferation and steroidogenesis in vitro. Theca cells from healthy large follicles (>8 mm) obtained from slaughterhouse ovaries were cultured in serum free medium in the presence of 0, 50, 150 and 200 microM of palmitic acid (PA; C16:0); 0, 50, 150 and 250 microM of stearic acid (SA; C18:0); and/or 0, 50, 150 and 250 microM of oleic acid (OA; C18:1). Progesterone and androstenedione concentrations were measured in spent medium after 48 h of culture and cell numbers were determined spectrophotometrically per culture well. Cell viability was assessed by annexin-V FITC/propidium iodide staining. Only the treatment with 200 microM of PA inhibited cell proliferation (P<0.001) when tested individually, both of the mixtures tested (M1=100 microM of PA, 130 microM of SA and 140 microM of OA; M2=200 microM PA, 260 microM of SA and 280 microM of OA) reduced cell numbers (P<0.001). Progesterone and androstenedione production, both per well and per 10(4) cells, were not affected by any of the treatments, with the exception of M2. This mixture reduced progesterone production per well and per 10(4) cells (P<0.05). The effects observed were most likely caused by the cytotoxic action of the NEFAs, as demonstrated by the increased percentage of early apoptotic (M1) and late apoptotic/necrotic cells (M1 and M2) in the combination treatments (P<0.05). When combined, elevated physiological concentrations of PA, SA and OA can modulate theca cell proliferation and steroidogenesis in vitro by reducing theca cell viability. These NEFAs may be one of the mediators through which NEB compromises ovarian functioning and thus fertility in high-yielding dairy cows.     

l-Arginine increases AMPK phosphorylation and the oxidation of energy substrates in hepatocytes,skeletal muscle cells,and adipocytes

Previous work has shown that dietary l-arginine (Arg) supplementation reduced white fat mass in obese rats. The present study was conducted with cell models to define direct effects of Arg on energy-substrate oxidation in hepatocytes, skeletal muscle cells, and adipocytes. BNL CL.2 mouse hepatocytes, C2C12 mouse myotubes, and 3T3-L1 mouse adipocytes were treated with different extracellular concentrations of Arg (0, 15, 50, 100 and 400 µM) or 400 µM Arg?+?0.5 mM N^G-nitro-l-arginine methyl ester (L-NAME; an NOS inhibitor) for 48 h. Increasing Arg concentrations in culture medium dose-dependently enhanced (P?<?0.05) the oxidation of glucose and oleic acid to CO₂ in all three cell types, lactate release from C2C12 cells, and the incorporation of oleic acid into esterified lipids in BNL CL.2 and 3T3-L1 cells. Arg at 400 µM also stimulated (P?<?0.05) the phosphorylation of AMP-activated protein kinase (AMPK) in all three cell types and increased (P?<?0.05) NO production in C2C12 and BNL CL.2 cells. The inhibition of NOS by L-NAME moderately reduced (P?<?0.05) glucose and oleic acid oxidation, lactate release, and the phosphorylation of AMPK and acetyl-CoA carboxylase (ACC) in BNL CL.2 cells, but had no effect (P?>?0.05) on these variables in C2C12 or 3T3-L1 cells. Collectively, these results indicate that Arg increased AMPK activity and energy-substrate oxidation in BNL CL.2, C2C12, and 3T3-L1 cells through both NO-dependent and NO-independent mechanisms.

     

Enhanced production of acetoin and butanediol in recombinant Enterobacter aerogenes carrying Vitreoscilla hemoglobin gene

Microbial production of butanediol and acetoin has received increasing interest because of their diverse potential practical uses. Although both products are fermentative in nature, their optimal production requires a low level of oxygen. In this study, the use of a recombinant oxygen uptake system on production of these metabolites was investigated. Enterobacter aerogenes was transformed with a pUC8-based plasmid carrying the gene (vgb) encoding Vitreoscilla (bacterial) hemoglobin (VHb). The presence of vgb and production of VHb by this strain resulted in an increase in viability from 72 to 96 h in culture, but no overall increase in cell mass. Accumulation of the fermentation products acetoin and butanediol were enhanced (up to 83%) by the presence of vgb/VHb. This vgb/VHb related effect appears to be due to an increase of flux through the acetoin/butanediol pathway, but not at the expense of acid production.     

Culture conditions for intracellular lipase production by Rhizopus chinensis and its immobilization within biomass support particles

Acetone-dried cells of Rhizopus chinensis (with a 1,3-positional specificity lipase) were investigated for the interestierification reaction of olive oil and methyl stearate. First, the culture conditions for intracellular lipase production were examined, and then the activities of dried cells obtained from immobilization in Biomass Support Particles (BSPs) were compared with those of freely suspended cells.It was clear from cultivation of freely suspended cells that intracellular lipase activity for the interesterification reaction was enhanced sifnificantly by the presence of oleic acid, oil, and tea oil, but that the presence of glucose reduced the activity.The specific activity of dried cells within BSPs increased 7-fold compared with that obrained from freely suspended cells.The process presented here, using immobilization within BSPs, can provide cells directly as a catalyst with high activity, where cells become immobilized simply during batch operation, and no special preparation of cells is necessary. Therefore, the reaction system using dried cells immobilized within BSPs is a promising interesterifcation process for industrial applications.     

Saponified palm kernel oil and its major free fatty acids as carbon substrates for the production of polyhydroxyalkanoates in Pseudomonas putida PGA1

The synthesis of polyhydroxyalkanoates (PHA) by Pseudomonas putida PGA1, using saponified palm kernel oil (SPKO), was investigated. The PHA produced from SPKO was compared with those produced by the major free fatty acids found in the palm kernel oil. Owing to the absence of lipase activity in P.␣putida, palm kernel oil did not support cell growth. However, SPKO could support cell growth and produced relatively high yield of both dry cells and PHA. The polyester produced was similar in properties to those derived from lauric (C_12:0) and myristic (C_14:0) acids, while oleic acid (C_18:1) gave rise to PHA that was sticky and of broader molecular mass distribution. Nuclear magnetic resonance and gas chromatography showed that these PHA were copolymers consisting mainly of n-alkanoate monomers ranging from C₆ to C₁₄, with C₈ as the predominant component. PHA derived from SPKO and oleic acid also contained a small amount of unsaturated monomers. Received: 25 March 1996 / Received last revision: 30 September 1996 / Accepted: 18 October 1996     

Down‐regulation of crambe fatty acid desaturase and elongase in Arabidopsis and crambe resulted in significantly increased oleic acid content in seed oil

High oleic oil is an important industrial feedstock that has been one of the main targets for oil improvement in a number of oil crops. Crambe (Crambe abyssinica) is a dedicated oilseed crop, suitable for industrial oil production. In this study, we down‐regulated the crambe fatty acid desaturase (FAD) and fatty acid elongase (FAE) genes for creating high oleic seed oil. We first cloned the crambe CaFAD2, CaFAD3 and CaFAE1 genes. Multiple copies of each of these genes were isolated, and the highly homologous sequences were used to make RNAi constructs. These constructs were first tested in Arabidopsis, which led to the elevated oleic or linoleic levels depending on the genes targeted, indicating that the RNAi constructs were effective in regulating the expression of the target genes in nonidentical but closely related species. Furthermore, down‐regulation of CaFAD2 and CaFAE1 in crambe with the FAD2–FAE1 RNAi vector resulted in even more significant increase in oleic acid level in the seed oil with up to 80% compared to 13% for wild type. The high oleic trait has been stable in subsequent five generations and the GM line grew normally in greenhouse. This work has demonstrated the great potential of producing high oleic oil in crambe, thus contributing to its development into an oil crop platform for industrial oil production.     

Effect of some mould inhibitors and herbal plants on mycotoxins production by Aspergillus flavus and Fusarium verticilloides in vitro and in stored corn grains

Clove oil, clove extract and butylated hydroxyanisole (BHA) completely suppressed the growth of both Fusarium verticilloides and Aspergillus flavus isolates. Black cumin and thyme extracts were more suppressive on F. verticilloides than A. flavus. Antitox-Plus (AP) had no effect on the growth of both the pathogens. The minimum inhibitory concentration (MIC) test revealed that A. flavus was more sensitive to Fix-A-Tox (FAT) and AP than F. verticilloides. In the growth media, all the tested substances, completely suppressed the production of aflatoxins by A. flavus and significantly reduced fumonisins production by F. verticilloides, particularly clove oil and extract. Treatment of immature grains with the tested mould inhibitors prior to inoculation with A. flavus and F. verticilloides significantly reduced mycotoxins production at the end of the storage period; moreover, highest reduction rates were realised by BHA and FAT. Complete or highly significant suppression of aflatoxins in mature grains were obtained by all the tested herbal and synthetic mould inhibitors. Ground clove buds contained the highest carvacrol content, whereas thymol content was higher in thyme extract. Clove oil was rich in eugenol. Alpha-tocopherol content was higher in ground black cumin (BC), followed by BC oil. Unsaturated fatty acid content was higher in thyme extract and ground BC than saturated fatty acids. Linolenic acid was the most predominant fatty acid in BC oil and extract, whereas behenic and arachidic acids were detected only in BC oil. Stearic acid was the main fatty acid in clove oil and extract, whereas oleic acid was the prevailing fatty acid in thyme extract.     

Rational strategy for the production of new crude lipases from <Emphasis Type="BoldItalic">Candida rugosa</Emphasis>

Candida rugosa was cultured using different inducers (oleic acid, olive oil, sunflower oil, n-dodecanol and glycerol) as the only carbon source in batch conditions, as well as in several fed-batch fermentations (oleic acid as inducer) at variable feed rate conditions. The N-terminal analysis of each crude lipase revealed that, while the isoenzymes Lip2 and Lip3 are always secreted (at different proportions depending on the inducer), Lip1 was produced only using n-dodecanol (batch conditions) or oleic acid (fed-batch at high feed rate). The nature of the inducer controls the isoenzyme percentage; when this is fixed, as well as the feed rate in fed-batch fermentation, the isoenzymatic profile remained unaltered and the samples differed only in the activity of the lipases, as determined by heptyl oleate synthesis.     

Augmentation of monocyte intracellular ascorbate in vitro protects cells from oxidative damage and inflammatory responses

Ascorbic acid is present as a primary antioxidant in plasma and within cells, protecting both cytosolic and membrane components of cells from oxidative damage. The effects of intracellular ascorbic acid on F(2)-isoprostanes (biomarkers of oxidative stress) and monocyte chemoattractant protein-1 (marker of inflammatory responses) production in monocytic THP-1 cells were investigated under conditions of 2,2'-Azobis(2-methylpropionamidine)dihydrochloride (AAPH) induced oxidative stress. Cells cultured under normal conditions have extremely low ascorbate levels and the intracellular ascorbate can be augmented significantly by adding ascorbate to the culture medium. While AAPH treatment reduced cell viability, increased F(2)-isoprostanes and MCP-1 production, the presence of intracellular ascorbic acid maintained high cell viability and attenuated both F(2)-isoprostanes and MCP-1 production. Measurement of intracellular ascorbic acid and its oxidised products showed that intracellular ASC was oxidised to a significantly greater extent during AAPH treatment and may be utilised to protect the cells under conditions of oxidative stress. This study demonstrates the importance of intracellular ascorbate, which may be lacking under normal cell culture conditions, under conditions of increased oxidative stress.     

Hydrolysis of vegetable oils and triglycerides by thermotolerant and zoopathogenic species ofAspergillus from Nigerian palm produce

The ability ofAspergillus fumigatus Fres. andAspergillus nidulans (Eidam) Wint obtained from Nigerian palm produce to degrade vegetable oils and triglycerides and the production and activity of their extracellular lipases were studied. Both species readily hydrolysed palm oil and palm kernel oil among others liberating free fatty acids in the process. Good growth with mycelia production of both fungi were also recorded on the triglycerides used as sources of carbon at 37 °C with the best results obtained on palmitic and oleic acids, the predominant fatty acids in palm oil. Extracellular lipases were detected in the culture filtrates of both fungi within 48 h of incubation on an oat-meal chaff medium at 37 °C. Peak enzyme production occurred within the 10-day incubation period. The upases of both fungal species were most active at a pH of 5.6 and a temperature of 45 °C. The best glyceride for assaying the lipase activities of these fungi was trihexanoin while palm oil was a better vegetable oil than the conventional groundnut oil used for the same purpose. Because of the zoopathogenic nature of these fungi, attention is drawn to the potential health risks which their presence on the palm products where they were obtained pose to the consumers.