The effect of polychlorinated biphenyls (PCBs) on the membrane lipids of Pseudomonas stutzeri

In this study we examined the effect of polychlorinated biphenyls (PCBs) on biomass production of a PCB-degrading Pseudomonas stutzeri, and on the fatty acid profile of its major membrane lipids. Growth based on biomass weight was stimulated when PCBs were added at the time of inoculation, but PCB addition three days after inoculation led to a significant decrease in biomass. Simultaneous addition of PCBs plus biphenyl or PCBs plus carvone negatively affected P. stutzeri biomass (addition of biphenyl or carvone at the time of inoculation and PCBs to three-day-old culture). In the presence of PCBs alone the amount of the prevalent fatty acids C16:0 and C17-cyclopropyl fatty acid (C17-CP) of P. stutzeri in total and neutral lipids was significantly reduced. When PCBs were added together with carvone (carvone at the time of inoculation and PCBs after three days) a significant reduction of these fatty acids was obtained, but, in addition, oleic, cis-vaccenic, and cyclononadecanic (C19-CP) acids were increased. When PCBs were combined to biphenyl the prevalent fatty acids were reduced and oleic, cis-vaccenic, and cyclononadecanic acids were increased in total and neutral lipids. Addition of 3-chlorobenzoic acid led to a significant growth inhibition and to the production of oleic and cis-vaccenic acids in the membrane fraction phosphatidylcholine.     

Regioisomer separation and identification of triacylglycerols containing vaccenic and oleic acids,and α- and γ-linolenic acids,in thermophilic cyanobacteria Mastigocladus laminosus and Tolypothrix sp.

Reversed phase liquid chromatography–atmospheric pressure chemical ionization mass spectrometry (RP-HPLC/APCI-MS) was used for direct analysis of triacylglycerols (TAGs) from different strains of the cyanobacteria Mastigocladus laminosus, Tolypothrix cf. tenuis and Tolypothrix distorta. This technique enabled us to identify and quantify the specific molecular species of TAGs directly from lipid extracts of the cyanobacteria. The regioisomeric series of TAGs having α-linolenic and γ-linolenic and also oleic and cis-vaccenic acids were separated by RP-HPLC and identified by APCI-MS. M. laminosus produced only a few molecular species of TAGs, including both isomers of octadecenoic (oleic and vaccenic) acid, while T. distorta contained tens of molecular species of TAGs having FAs with up to four double bonds (stearidonic acid and including also its positional isomer, i.e. 3,6,9,12-octadecatetraenoic acid) and both positional isomers (α and γ) of linolenic acids. Individual strains of both cyanobacteria exhibited different contents of polyunsaturated fatty acids (Tolypothrix sp.) and different distribution of positional isomers of monoenoic fatty acids in TAGs (M. laminosus).     

EFFECT OF FATTY-ACID DOUBLE-BOND POSITION ON THE SELECTIVITY OF RAT-BRAIN ENZYMES: THE INCORPORATION OF OLEIC AND CIS-VACCENIC ACIDS INTO LYSOLECITHIN IN VITRO

Abstract— —Selectivity in the esterification of fatty acids to lysolecithin by rat-brain enzymes in vitro was investigated using free fatty acids (activation plus esterification) and CoA esters (esterification) of two naturally-occurring monoenoic fatty-acid isomers, oleic acid [18:1 (n - 9)] and cis-vaccenic acid [18:1 (n - 7)]. Esterification of free acids to l-acyl-sn-glycero-3-phosphorylcholine (1-acyl GPC) was dependent on CoA and ATP, and was stimulated by MgCl₂ and NaF. Under comparable conditions, fatty-acid activation (acyl-CoA synthetase [acid: CoA ligase (AMP)] EC 6.2.1.3.) appeared to be rate-limiting to 1-acyl GPC acyltransferase (acyl-CoA:l-acylglycero-3-phosphocholine O-acyltrans-ferase, EC 2.3.1.23.), since rates were always less with free fatty acids than with the CoA esters. A comparison of substrate curves obtained with free fatty acids and CoA esters suggests a preference for oleic acid during activation. Acyltransferase activity with 2-acyl GPC was similar with both acyl-CoA isomers, whereas with 1-acyl GPC, activity with oleoyl-CoA consistently exceeded that with cis-vaccenoyl-CoA. This difference between patterns of selectivity in esterification of positions 1 and 2 of lecithin suggests that separate enzymes catalyze the two reactions. The transfer of the isomers to the 2 position was affected in a similar manner by changes in pH and temperature, as well as in protein, fatty acid (or acyl-CoA), and 1-acyl GPC concentrations. Patterns of incorporation with simultaneous incubation of both isomers suggests one enzyme. Differences in acyltransferase activity with the two isomerie acyl-CoA's were observed in subcellular distribution, activity changes with brain maturation, and loss of activity on preincubation of microsomes at 45C. From these results it is not certain whether oleic and cis-vaccenic acids are esterified to the 2 position by separate enzymes, or by one enzyme with different affinities for the isomers. However, the investigation clearly indicates that acyltransferases, and possibly acyl-CoA synthetases in brain possess selectivity related to subtle differences in double-bond position. These selectivities probably are important in determining the specific fatty-acid composition of the complex lipids of brain.     

Unusual fatty acids in the lipids from organs and cell cultures ofPetroselinum crispum

The lipids of seeds, leaves, and roots of parsley,Petroselinum crispum, and of heterotrophic as well as photomixotrophic cell cultures of this plant were characterized with the aim of finding a system for studying the biosynthesis of unusual fatty acids. It was found that (Z)-6-octadecenoic acid, petroselinic acid, which is the typical constituent fatty acid of triacylglycerols in seeds, occurs only in small proportions, if at all, in leaves, roots, and cell cultures of parsley. In all lipid classes studied petroselinic acid is accompanied by its (Z)-9- and (Z)-11-isomers, oleic and vaccenic acid, respectively. The phosphatidylcholines, phosphatidylethanolamines, and triacylglycerols of both heterotrophic and photomixotrophic callus cultures contain no petroselinic acid but rather oleic and vaccenic acids in equal ratios. Thus, cell cultures of parsley appear to be suitable for studying the biosynthesis of vaccenic acid. The constituent octadecadienoic acids in the lipids of various tissues and cell cultures of parsley consist almost exclusively of the (Z),(Z)-9,12-isomer, linoleic acid, which is derived from oleic acid. (Z),(Z)-6,9- and (Z),(Z)-11,14-Octadecadienoic acids, which could be expected as products of desaturation of petroselinic and vaccenic acids, were not found in any of the lipids of organs and cell cultures investigated.Abbreviations TLC thin-layer chromatography - GLC gas-liquid chromatography     

Fatty acid composition of <Emphasis Type="Italic">Wautersia eutropha</Emphasis> lipids under conditions of active polyhydroxyalkanoates synthesis

The fatty acid composition of the lipids of a Wautersia eutropha polyhydroxyalkanoate-producing strain was studied by chromato-mass spectrometry. A total of 27 fatty acids were identified; their distribution in the cell fractions was determined. In the cytoplasmic membrane, palmitic, palmitoleic, and cis-vaccenic acids were the major components. Long-chain β-hydroxy acids and myristic acids (components of the lipopolysaccharides of the cell envelope) predominated in the fraction of strongly bound lipids. When the polymer was actively synthesized, the content of cyclopropane acids in the easily extracted lipids increased and the content of the corresponding monoenoic acids decreased. The strongly bound lipids had a high content of long-chain β-hydroxy acids (more than 50% of the total fatty acids). These results made it possible to determine the source of polyhydroxyalkanoate (PHA) contamination and to choose the strategy for their purification.     

Fatty Acids of Extractable and Bound Lipids of Rhodomicrobium vannielii

Cells of Rhodomicrobium vannielii grown at 29 C in a lactate-containing medium were extracted at room temperature with organic solvents. The extractable fraction contained the bulk of the simple lipid (1.87% of cell dry weight) and complex lipids (phospholipids, 4.2%; sulfolipid, 0.01%), coenzyme Q (0.09%), and pigments (carotenoids 1.2%; bacteriochlorophyll, 1.9%). The cell residue contained the bound lipids (nonpolar fatty acid fraction, 1.86%; polar hydroxy fatty acids, 0.49%). The residue also contained poly-β-hydroxybutyric acid (0.2%), which was extracted in boiling chloroform. In both the simple and complex lipids, vaccenic acid (11-octadecenoic acid) was the largest single component (approximately 90% in each fraction). The fatty acids of the bound lipid contained 35% vaccenic acid, even- and odd-numbered saturated and unsaturated straight-chain fatty acids, cyclopropane-, branched-, and α- and β-hydroxy fatty acids. The extractable lipids contained only straight-chain saturated and unsaturated even-numbered fatty acids. Nearly 60% of hydroxy fatty acid fraction was α-hydroxydodecanoic acid (24%) and β-hydroxydodecanoic acid (34.5%). Coenzyme Q was crystallized and identified as Q₉ on the basis of melting point and chromatographic properties. Q₁₀ had been previously reported.     

Effects of Long-Chain Fatty Acids on Growth of Rumen Bacteria

The effects of low concentrations of long-chain fatty acids (palmitic, stearic, oleic, and vaccenic) on the growth of seven species (13 strains) of rumen bacteria were investigated. Except for Bacteroides ruminicola and several strains of Butyrivibrio fibrisolvens, bacterial growth was not greatly affected by either palmitic or stearic acids. In contrast, growth of Selenomonas ruminantium, B. ruminicola, and one strain of B. fibrisolvens was stimulated by oleic acid, whereas the cellulolytic species were markedly inhibited by this acid. Vaccenic acid (trans Δ11 18:1) had far less inhibitory effect on the cellulolytic species than oleic acid (cis Δ9 18:1). Inclusion of powdered cellulose in the medium appeared to reverse both inhibitory and stimulatory effects of added fatty acids. However, there was little carry-over effect observed when cells were transferred from a medium with fatty acids to one without. Considerable variation in response to added fatty acids was noted among five strains of B. fibrisolvens. In general, exogenous long-chain fatty acids appear to have little, if any, energy-sparing effect on the growth of rumen bacteria.     

Indentification and Localization of the Fatty Acids in Haemophilus parainfluenzae

Haemophilus parainfluenzae was capable of synthesizing 22 fatty acids. These fatty acids were equivalent to 4% of the bacterial dry weight. These fatty acids were localized in the membrane-wall complex, which contained the respiratory pigments, the quinone, and the phospholipids. The fatty acids which could be extracted with organic solvents comprised 86% of the total fatty acids of the cell. These fatty acids were distributed as 98% in the phospholipids and 1.9% in the neutral lipids, of which 0.5% were free fatty acids. Palmitic, palmitoleic, oleic, and vaccenic acids comprised 72% of the total fatty acids and were found almost exclusively in the phospholipids. The phospholipids also contained the cyclopropane fatty acids. The neutral lipids contained significant proportions of the odd-numbered branched and straight-chain fatty acids. The principal free fatty acids were n-dodecanoic and pentadecenoic acids. The nonextractable wall complex contained 14% of the total fatty acids. These wall fatty acids were rendered soluble only after saponification. The wall fraction contained all of the beta-hydroxymyristic acid and most of the myristoleic and pentadecenoic acids. The significance of the distribution of fatty acids between nonesterified, neutral lipid, phospholipid, and nonextractible wall remains to be determined.     

Effects of perfluorocarboxylic acids on the activities of acyl-CoA elongations in vivo and in vitro

Effects of perfluorocarboxylic acids (PFCAs) on proportions of oleic acid and cis-vaccenic acid through acyl-CoA chain elongation systems have been studied in the liver of rats. Administration of PFCAs caused a significant increase in palmitoyl-CoA chain elongation activity while these chemicals did not affect palmitoleoyl-CoA chain elongation activity in vivo.Condensation for both palmitoyl-CoA and palmitoleoyl-CoA were inhibited by PFCAs in vitro at the concentrations, which were physiologically found in the liver of rats treated with the PFCAs. Δ⁹ Desaturase, which catalyzes both stearoyl-CoA desaturation and palmitoyl-CoA desaturation, was induced by the treatments of rats with the PFCAs. The administration of the PFCAs to rats caused a marked increase in proportion of oleic acid, while that of cis-vaccenic acid was not affected at all. These results strongly suggest that the induced palmitoyl-CoA chain elongation by PFCAs, which exist in the liver, effectively produces oleic acid in concert with the induced stearoyl-CoA desaturase, but the inhibitory effects of PFCAs on either palmitoyl-CoA chain elongation or palmitoleoyl-CoA chain elongation are not crucial for the formation of the elongated fatty acids in vivo.     

Synthesis of trans unsaturated fatty acids in Pseudomonas putida P8 by direct isomerization of the double bond of lipids

The phospholipids of Pseudomonas putida P8 contain monounsaturated fatty acids in the cis and trans configuration. Cells of this phenol-degrading bacterium change the proportions of these isomers in response to the addition or elimination of a membrane active compound such as 4-chlorophenol. This study undoubtedly reveals that the cis unsaturated fatty acids are directly converted into trans isomers without involvement of de novo synthesis of fatty acids. Oleic acid, which cannot be synthesized by this bacterium, was incorporated as a cis unsaturated fatty acid marker in the membrane lipids of growing cells. The conversion of this fatty acid into the corresponding trans isomer was demonstrated by gas chromatographic-mass spectrometric analysis and use of ¹⁴C-labeled oleic acid. Separation and isolation of the cellular membranes showed that the fatty acid isomerase is located in the cytoplasmic membrane of P. putida P8.Abbreviation 4-CP 4-chlorophenol     

Phase transition behaviour of artificial liposomes composed of phosphatidylcholines acylated with cyclopropane fatty acids

Phase transitions of liposomes composed of synthetic phosphatidylcholines acylated with the cyclopropane fatty acids, lactobacillic and dihydrosterculic acid, were studied by differential scanning calorimetry. Transition temperatures were approx. 16°C higher than for phosphatidylcholines acylated with the corresponding unsaturated fatty acids, cis-vaccenic and oleic acid. Though our transition temperatures were all several degrees lower than those determined by Silvius and McElhaney ((1979) Chem. Phys. Lipids 25, 125–134), the increase produced by replacement of the double bond with a cyclopropane ring was the same. We propose that this replacement, through its effect on membrane fluidity, may serve to regulate the activity of membrane-associated processes such as transport.     

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   

Peculiarities of fatty acid composition of the genusCaulobacter

The fatty acid composition of 35 strains of stalked bacteria belonging to 17 of the hitherto described 19 species and 10 unidentified strains of the genusCaulobacter was studied. ll-Methyl-cis-octadec-11-enoic acid presumably synthesized fromcis-vaccenic acid was detected in all the strains in amounts of 0.4 – 34.7 % and was considered as a chemotaxonomic marker of the genus. During growth on a peptone-yeast medium, the caulobacters synthesized, along with the fatty acids which are typical of gram-negative bacteria, some normal and branched fatty acids with 15 and 17 carbon atoms (1–49 %). The synthesis of these acids was inhibited by glucose. The cell shape of stalked bacteria (fusiform, vibrioid or bacteroid) is not obviously associated with the contents of individual fatty acids.     

Distribution of unusual fatty acids in the triacylglycerols of sea buckthorn mesocarp oil

The structure of unusual fatty acid (FA) components of triacylglycerols (TAGs) of mature sea buckthorn (Hippophae rhamnoides L.) mesocarp oil was determined by GLC and MS, and the positional-species composition (PSC) of these TAGs was estimated using the methods of TAG chemical deacylation, TLC, GLC, and computer calculation. It was shown that the unusual FAs comprised n-cis-Δ9-hexadecenoic, n-cis-Δ9,12-hexadecadienoic (palmitolinoleic), and n-cis-Δ11-octadecenoic (cis-vaccenic) acids. The hexadecenoic acid predominated in the oil, and in its distribution in TAGs, it was similar to the total FAs differing from them only in some prevalence in the triunsaturated TAGs and in the TAGs with a shorter acyl chain, as well as in the sn-2 position of TAGs. Palmitolinoleic (16:2) acid comprised only 5% of total FAs, and it was exclusively concentrated in the sn-2 position of TAGs. As regards its distribution between various positional types and forms of TAGs, the 16:2 acid was similar to oleate and total FAs. As compared to the total TAGs, the TAGs with 16:2 acid were characterized by a lower FA chain length as well as by a highest unsaturation. The TAGs with vaccenic acid (V-TAGs) considerably exceeded O-TAGs, i.e., the TAGs containing oleic acid, another 18:1 positional isomer, both in their content in the total TAGs and in their unsaturation. In the composition of positional types and fractions of various unsaturation, O-TAGs were similar to the total TAGs, while V-TAGs were characterized by a very unusual structure, viz., a very high triunsaturated TAG level and an extremely low concentration of 1,3-disaturated-2-monounsaturated TAGs. In addition, oleic acid, like most other unsaturated FAs, was incorporated predominantly in the sn-2 position of TAGs, while vaccenic acid, being also unsaturated, was nevertheless by 90% concentrated in the sn-1,3 positions of V-TAGs. Unusual FAs were related to each other in the mechanism of their biosynthesis. In fact, hexadecenoic acid biosynthesis produced by palmitic acid desaturation, was, on the one hand, further desaturated forming palmitolinoleic acid, and, on the other hand, converted to vaccenic acid via C₂ elongation.     

Characterization of Bacteria That Suppress Rhizoctonia Damping-Off in Bark Compost Media by Analysis of Fatty Acid Biomarkers

Examination of cucumber roots (Cucumis sativus L.) grown in bark compost media and of the surrounding edaphic substrate showed profiles of polar lipid fatty acids commonly found in bacteria. The composition of fatty acids in these profiles differed significantly between roots grown in a medium naturally suppressive to Rhizoctonia damping-off and roots from a conducive medium. Cucumber roots from the suppressive medium had higher proportions of cis-vaccenic acid (18:1 ω 7c) and the iso-branched monoenoic fatty acid i17:1 ω 8 but lower proportions of several iso- and anteiso-branched fatty acids compared with roots from the conducive medium. The concentrations of the bacterial fatty acids were significantly lower in the surrounding media. However, the suppressive and conducive growth substrates had differences in the composition of the bacterial fatty acids similar to those found between the cucumber roots proper. These results suggest major differences in bacterial community composition between suppressive and conducive systems. Fatty acid analyses were also utilized to examine the effects on bacterial community composition of root colonization by Flavobacterium balustinum 299, a biocontrol agent. The concentration of the most prominent fatty acid in this bacterium, i17:1 ω 8, was increased on roots produced from inoculated seeds in a medium rendered suppressive by the treatment. This change was concomitant with a significant increase in the concentration of 18:1 ω 7c, not present in the lipids of the antagonist, indicating a shift in the microflora from a conducive to a suppressive bacterial community.     

Distribution of unusual fatty acids in the mesocarp triacylglycerols of maturing sea buckthorn fruits

The pattern of distribution of X-FAs among individual positional species of the X-triacylglycerols (X-TAGs) in the sea buckthorn (Hippophaë rhamnoides L.) mesocarp oil by the 80th, 90th, and 105th day after pollination (DAP) was investigated. The X-FAs comprised oleic acid (O) as well as unusual FAs, viz. hexadecenoic (H), palmitolinoleic (Pl), and cis-vaccenic acid (V). During mesocarp growth, the number of X-TAG species decreased dramatically as a result of their metabolism, but their proportion in the total TAGs remained constant. H-TAGs predominating in the oil were similar to total TAGs in their composition and the pattern of their dynamics during maturation. As regards minor Pl-TAGs, there was a tendency for an increase in the level of species including palmitolinoleic acid in the middle (sn-2) position of their molecules. Throughout the entire process of fruit maturation, oleic acid was by 98.0–98.8% concentrated in the sn-2 position of O-TAGs. At the same time, cis-vaccenic acid, a Δ11-positional isomer of oleic acid, was predominantly incorporated in the side positions of V-TAGs, and its 98.1% concentration in these positions was achieved only by the 105th DAP. A virtually absolute selectivity of the distribution of oleic and cis-vaccenic acids in TAGs was found here for the first time. Discussed are the possible physicochemical and biochemical factors of a highly selective incorporation of these FAs in the sea buckthorn TAGs, the pathways of enzymatic biosynthesis of O- and V-TAGs, the metabolic role of discrimination of incorporation of some FA species in the glycerol residue of glycerolipids, and the causes for the disappearance of some TAG species during maturation.     

Cold adaptation of eicosapentaenoic acid-less mutant of Shewanella livingstonensis Ac10 involving uptake and remodeling of synthetic phospholipids containing various polyunsaturated fatty acids

An Antarctic psychrotrophic bacterium, Shewanella livingstonensis Ac10, produces cis-5,8,11,14,17-eicosapentaenoic acid (EPA), a long-chain polyunsaturated fatty acid (LPUFA), as a component of membrane phospholipids at low temperatures. The EPA-less mutant generated by disruption of the EPA synthesis gene becomes cold-sensitive. We studied whether the cold sensitivity could be suppressed by supplementation of various LPUFAs. The EPA-less mutant was cultured at 6°C in the presence of synthetic phosphatidylethanolamines (PEs) that contained oleic acid at the sn-1 position and various C20 fatty acids with different numbers of double bonds from zero to five or cis-4,7,10,13,16,19-docosahexaenoic acid (DHA) at the sn-2 position. Mass spectrometric analyses revealed that all these fatty acids became components of various PE and phosphatidylglycerol species together with shorter partner fatty acids, indicating that large-scale remodeling followed the incorporation of synthetic PEs. As the number of double bonds in the sn-2 acyl chain decreased, the growth rate decreased and the cells became filamentous. The growth was restored to the wild-type level only when the medium was supplemented with phospholipids containing EPA or DHA. We found that about a half of DHA was converted into EPA. The results suggest that intact EPA is best required for cold adaptation of this bacterium.     

Characterization of a novel plant acyl-CoA synthetase that is expressed in lipogenic tissues of Brassica napus L.

A cDNA encoding a novel isoform of acyl-CoA synthetase (ACS6) was isolated from embryos of oilseed rape. Homology searches show it is most closely related to ACS4 from rat and human brain rather than the other oilseed rape ACSs. The ACS6 is strongly expressed in embryos and flowers, tissues of Brassica napus that synthesize lipids at high rates. The activity of recombinantly expressed ACS6 was recovered in the insoluble fraction (214000×g, 1 h pellet). CHAPS-solubilized recombinant ACS6 protein preferred utilising long-chain fatty acids that contained a cis-9 double bond, i.e. palmitoleic, oleic, linoleic and linolenic acids. Western blot analysis showed that the ACS6 protein is membrane-bound.     

Characteristics of a lipolytic and fatty acid-requiring Butyrivibrio sp. isolated from the ovine rumen.

A naturally occurring fatty acid-requiring Butyrivibrio sp. (strain S2), isolated from the ovine rumen, deacylates plant galactolipids, phospholipids and sulpholipids to obtain sufficient fatty acid for growth. Growth in vitro was promoted by adding to the growth medium a single straight-chain saturated fatty acid (C13 to C18) or vaccenic acid. Palmitoleic and oleic acids also supported growth but gave lengthy lag phases probably due to their toxicity. Linolenic and linoleic acids supported good growth but they were completely hydrogenated to trans-11-octadecenoic acid which was incorporated into the bacterial complex lipids. No chain elongation, chain shortening or desaturation of the added fatty acids occurred and all were substantially incorporated into bacterial lipids of the plasmalogen type, partially as a new type of hydrophobic grouping derived from two molecules of fatty acid. The absence of fatty acid unsaturation poses the question of the maintenance of membrane fluidity within this bacterium.