Nutritional Alteration of the Fatty Acid Composition of a Thermophilic Bacillus Species

The fatty acid composition of a thermophilic Bacillus sp. was altered by the addition of isobutyrate, isovalerate, alpha-methylbutyrate, leucine, and isoleucine to the growth medium. With isobutyrate, 81% of the fatty acids had 16 carbon atoms and 79% were iso-fatty acids with an even number of carbon atoms. With leucine, 58% of the fatty acids had 15 carbon atoms and 86% were iso-fatty acids with an odd number of carbon atoms. With isoleucine, 72% of the fatty acids had 17 carbon atoms and 88% were anteiso-fatty acids with an odd number of carbon atoms. Thus, by altering the composition of the growth medium, cells were produced in which the majority of the fatty acids had either 15, 16, or 17 carbons and belonged to each of the three groups of branched-chain fatty acids. The wide variation observed in the fatty acid composition makes it unlikely that any specific branched-chain fatty acid is required for vital functions.     

What factors are responsible for the greater yield of ATP per carbon atom when fatty acids are completely oxidised to CO2 and water compared with glucose?

Some current textbooks of biochemistry present calculations which indicate that when palmitic or stearic acid is completely oxidised to CO₂ and water, more molecules of ATP are produced per carbon atom than when glucose is similarly oxidised. This greater yield of ATP is not due to ATP produced as a result of the β-oxidative process, but rather due to the increased yield of acetyl-CoA molecules produced from fatty acids (3 acetyl-CoA molecules per 6 carbon atoms) compared with that produced from glucose (2 acetyl-CoA molecules per 6 carbon atoms).     

Chlorosome lipids from Chlorobium tepidum: characterization and quantification of polar lipids and wax esters

We have extracted polar lipids and waxes from isolated chlorosomes from the green sulfur bacterium Chlorobium tepidum and determined the fatty acid composition of each lipid class. Polar lipids amounted to 4.8 mol per 100 mol bacteriochlorophyll in the chlorosomes, while non-polar lipids (waxes) were present at a ratio of 5.9 mol per 100 mol bacteriochlorophyll. Glycolipids constitute 60 % of the polar lipids while phosphatidylglycerol, diphosphatidylglycerol, phosphatidylethanolamine, and an aminoglycosphingolipid make up respectively 15, 3, 8 and 12 %. A novel glycolipid was identified as a rhamnose derivative of monogalactosyldiacylglycerol, while the other major glycolipid was monogalactosyldiacylglycerol. Tetradecanoic acid was the major fatty acid in the aminoglycosphingolipid, while the other polar lipids contained predominantly hexandecanoic acid. The chlorosome waxes are esters of unbranched fatty acids and fatty alcohols with 14 or 16 carbon atoms, joined to form molecules with between 28 and 32 carbon atoms. The stoichiometry between lipids and bacteriochlorophyll suggests that much of the chlorosome surface is covered by protein.     

Short chain fatty acid inhibition of rat brain Na-K adenosine triphosphatase

The possibility was considered that the sleep-like state seen after injection of short chain fatty acids salts into animals is a result of inhibition of the sodium-potassium activated ATPase. Tris salts of short chain fatty acids inhibited brain Na-K ATPase activity in vitro at concentrations similar to intravenous levels causing narcosis in vivo. The inhibition depended on the logarithm of the concentration of a given acid. The concentration of acid anion which caused 50 per cent inhibition of the enzyme system (I50) was determined for straight and branched chain acids with 4-12 carbon atoms per molecule. The log of I50 concentrations plotted against the number of carbon atoms in the molecule gave a straight line; the inhibitory capacity of an acid increased by a factor of 2.3 for each--CH2--added to the carbon chain. It is suggested that both fatty acid narcosis and the enzyme inhibition result from fatty acid molecules forming an ordered array along the membrane in association with membrane lipids.     

Medium-chain fatty acids affect citrinin production in the filamentous fungus Monascus ruber

During submerged culture in the presence of glucose and glutamate, the filamentous fungus Monascus ruber produces water-soluble red pigments together with citrinin, a mycotoxin with nephrotoxic and hepatoxic effects on animals. Analysis of the (13)C-pigment molecules from mycelia cultivated with [1-(13)C]-, [2-(13)C]-, or [1, 2-(13)C]acetate by (13)C nuclear magnetic resonance indicated that the biosynthesis of the red pigments used both the polyketide pathway, to generate the chromophore structure, and the fatty acid synthesis pathway, to produce a medium-chain fatty acid (octanoic acid) which was then bound to the chromophore by a trans-esterification reaction. Hence, to enhance pigment production, we tried to short-circuit the de novo synthesis of medium-chain fatty acids by adding them to the culture broth. Of fatty acids with carbon chains ranging from 6 to 18 carbon atoms, only octanoic acid showed a 30 to 50% stimulation of red pigment production, by a mechanism which, in contrast to expectation, did not involve its direct trans-esterification on the chromophore backbone. However, the medium- and long-chain fatty acids tested were readily assimilated by the fungus, and in the case of fatty acids ranging from 8 to 12 carbon atoms, 30 to 40% of their initial amount transiently accumulated in the growth medium in the form of the corresponding methylketone 1 carbon unit shorter. Very interestingly, these fatty acids or their corresponding methylketones caused a strong reduction in, or even a complete inhibition of, citrinin production by M. ruber when they were added to the medium. Several data indicated that this effect could be due to the degradation of the newly synthesized citrinin (or an intermediate in the citrinin pathway) by hydrogen peroxide resulting from peroxisome proliferation induced by medium-chain fatty acids or methylketones.     

Anaerobic transformation of alkanes to fatty acids by a sulfate-reducing bacterium,strain Hxd3

Strain Hxd3, an alkane-degrading sulfate reducer previously isolated and described by Aeckersberg et al. (F. Aeckersberg, F. Bak, and F. Widdel, Arch. Microbiol. 156:5-14, 1991), was studied for its alkane degradation mechanism by using deuterium and (13)C-labeled compounds. Deuterated fatty acids with even numbers of C atoms (C-even) and (13)C-labeled fatty acids with odd numbers of C atoms (C-odd) were recovered from cultures of Hxd3 grown on perdeuterated pentadecane and [1,2-(13)C(2)]hexadecane, respectively, underscoring evidence that C-odd alkanes are transformed to C-even fatty acids and vice versa. When Hxd3 was grown on unlabeled hexadecane in the presence of [(13)C]bicarbonate, the resulting 15:0 fatty acid, which was one carbon shorter than the alkane, incorporated a (13)C label to form its carboxyl group. The same results were observed when tetradecane, pentadecane, and perdeuterated pentadecane were used as the substrates. These observations indicate that the initial attack of alkanes includes both carboxylation with inorganic bicarbonate and the removal of two carbon atoms from the alkane chain terminus, resulting in a fatty acid one carbon shorter than the original alkane. The removal of two terminal carbon atoms is further evidenced by the observation that the [1,2-(13)C(2)]hexadecane-derived fatty acids contained either two (13)C labels located exclusively at their acyl chain termini or none at all. Furthermore, when perdeuterated pentadecane was used as the substrate, the 14:0 and 16:0 fatty acids formed both carried the same numbers of deuterium labels, while the latter was not deuterated at its carboxyl end. These observations provide further evidence that the 14:0 fatty acid was initially formed from perdeuterated pentadecane, while the 16:0 fatty acid was produced after chain elongation of the former fatty acid with nondeuterated carbon atoms. We propose that strain Hxd3 anaerobically transforms an alkane to a fatty acid through a mechanism which includes subterminal carboxylation at the C-3 position of the alkane and elimination of the two adjacent terminal carbon atoms.     

A system for the automated chemotaxonomic determination of salmonellae and other pathogenic bacteria

On the basis of the data of the gas-chromatographic analysis of the fatty acids of 208 bacterial strains, representatives of 16 different microbial genera, the algorithm of decision taking, necessary for the program provision of investigations, was worked out. In working out the algorithm the characteristics of 30 fatty acids were used, making it possible to classify bacteria with their genera and in some cases their species. The groups of fatty acids with the number of carbon atoms in their molecules ranging from 10 to 25, their melting temperatures and the dependence of relative characteristics of binding from the number of carbon atoms in the molecule of the acid, its chemical composition and the presence of double bonds were taken into consideration. To indicate salmonellae by their fatty acid profiles, a chromatographic system on the basis of a type Crystal 2000 M gas chromatograph is proposed. In addition, the complex method for the determination of bacteria, combining the determination of salmonellae by changes in the medium resistance (impedance) with the use of an electrochemical analyzer and the subsequent identification of the infective agent by its fatty acid profile in the common system of gas-chromatographic investigation, is proposed.     

Purification of the multienzyme complex for fatty acid oxidation from Pseudomonas fragi and reconstitution of the fatty acid oxidation system

The multienzyme complex for fatty acid oxidation was purified from Pseudomonas fragi, which was grown on oleic acid as the sole carbon source. This complex exhibited enoyl-CoA hydratase [EC 4.2.1.17], 3-hydroxyacyl-CoA dehydrogenase [EC 1.1.1.35], 3-oxoacyl-CoA thiolase [EC 2.3.1.16], cis-3,trans-2-enoyl-CoA isomerase [EC 5.3.3.3], and 3-hydroxyacyl-CoA epimerase [EC 5.1.2.3] activities. The molecular weight of the native complex was estimated to be 240,000. Two types of subunits, with molecular weights of 73,000 and 42,000, were identified. The complex was composed of two copies each of the 73,000- and 42,000-Da subunits. The beta-oxidation system was reconstituted in vitro using the multienzyme complex, acyl-CoA synthetase and acyl-CoA oxidase. This reconstituted system completely oxidized saturated fatty acids with acyl chains of from 4 to 18 carbon atoms as well as unsaturated fatty acids having cis double bonds extending from odd-numbered carbon atoms. However, unsaturated fatty acids having cis double bonds extending from even-numbered carbon atoms were not completely oxidized to acetyl-CoA: about 5 mol of acetyl-CoA was produced from 1 mol of linoleic or alpha-linolenic acid, and about 2 mol of acetyl-CoA from 1 mol of gamma-linolenic acid. These results suggested that the 3-hydroxyacyl-CoA epimerase in the complex was not operative. When the epimerase was by-passed by the addition of 2,4-dienoyl-CoA reductase to the reconstituted system, unsaturated fatty acids with cis double bonds extending from even-numbered carbon atoms were also completely degraded to acetyl-CoA.     

The occurrence of polyenoic fatty acids with greater than 22 carbon atoms in mammalian spermatozoa.

Fatty acids with carbon chain lengths greater than 22 (VLCFA) have been detected in boar, ram, bull and human spermatozoa. Saturated and mono-unsaturated fatty acids were present in all spermatozoa but, except for human spermatozoa, polyenoic fatty acids were quantitatively the most important components. Marked differences in polyenoic fatty acid composition were observed. Whereas human spermatozoa contain predominantly di-, tri- and tetraenoic fatty acids with up to 32 carbon atoms, boar, ram and bull spermatozoa also contain pentaenoic and/or hexaenoic acids with up to 34 carbon atoms. Human and boar spermatozoa differ markedly from those of the ram and bull in that only n-6 series acids are present.     

Anaerobic Transformation of Alkanes to Fatty Acids by a Sulfate-Reducing Bacterium, Strain Hxd3

Strain Hxd3, an alkane-degrading sulfate reducer previously isolated and described by Aeckersberg et al. (F. Aeckersberg, F. Bak, and F. Widdel, Arch. Microbiol. 156:5-14, 1991), was studied for its alkane degradation mechanism by using deuterium and ¹³C-labeled compounds. Deuterated fatty acids with even numbers of C atoms (C-even) and ¹³C-labeled fatty acids with odd numbers of C atoms (C-odd) were recovered from cultures of Hxd3 grown on perdeuterated pentadecane and [1,2-¹³C₂]hexadecane, respectively, underscoring evidence that C-odd alkanes are transformed to C-even fatty acids and vice versa. When Hxd3 was grown on unlabeled hexadecane in the presence of [¹³C]bicarbonate, the resulting 15:0 fatty acid, which was one carbon shorter than the alkane, incorporated a ¹³C label to form its carboxyl group. The same results were observed when tetradecane, pentadecane, and perdeuterated pentadecane were used as the substrates. These observations indicate that the initial attack of alkanes includes both carboxylation with inorganic bicarbonate and the removal of two carbon atoms from the alkane chain terminus, resulting in a fatty acid one carbon shorter than the original alkane. The removal of two terminal carbon atoms is further evidenced by the observation that the [1,2-¹³C₂]hexadecane-derived fatty acids contained either two ¹³C labels located exclusively at their acyl chain termini or none at all. Furthermore, when perdeuterated pentadecane was used as the substrate, the 14:0 and 16:0 fatty acids formed both carried the same numbers of deuterium labels, while the latter was not deuterated at its carboxyl end. These observations provide further evidence that the 14:0 fatty acid was initially formed from perdeuterated pentadecane, while the 16:0 fatty acid was produced after chain elongation of the former fatty acid with nondeuterated carbon atoms. We propose that strain Hxd3 anaerobically transforms an alkane to a fatty acid through a mechanism which includes subterminal carboxylation at the C-3 position of the alkane and elimination of the two adjacent terminal carbon atoms.     

Effect of antibiotic AL-87 on the fatty acid composition of microorganisms in different taxonomic groups

The effect of antibiotic A1-87 on the fatty acid composition of S. aureus 209, E. coli O26 and M. luteus 169 significantly differing in this property was studied. The sub-bacteriostatic doses of the preparation induced the appearance of unsaturated fatty acids in S. aureus 209. These acids were not detected in the control cultures. They also significantly increased the content of the saturated branched fatty acid with 15 carbon atoms in this culture and decreased the content of the fatty acid of the same type with 19 carbon atoms. In E. coli O25 there was an almost two-fold increase in the content of the unsaturated straight chain fatty acids with a respective decrease in the content of cyclopropanoic acid and a markedly pronounced decrease in the content of nonadecanoic acid. In M. luteus 169 the content of the saturated branched fatty acid with 15 carbon atoms increased, while the content of the unsaturated straight chain fatty acids (C16:1, C18:1) decreased, the content of hexadecanoic acid being decreased almost two times. According to the present status the differences in the fatty acid composition of the above organisms are interpreted as one of the mechanisms increasing the membrane permeability.     

Stability of the fatty acid composition of actinomycetes

The stability of fatty acid composition of total extractable lipids was studied in Streptomyces cultures. The type of fatty acid composition typical of the Streptomyces genus remains stable when the actinomycetes were grown as submerged cultures in various synthetic media: saturated fatty acids with methyl branching in the chain predominated in all of the cases, and fatty acids with an uneven number of carbon atoms in the chain prevailed in most of the cases. Fatty acids with the anteiso structure predominated among the acids with a branched chain, amounting to more than a half of the latter and reaching sometimes 50% of the total fatty acid content. Methyl branchings were located in the anteiso position in fatty acids with an uneven number of carbon atoms, and in the iso position in fatty acids with an even number of carbons. Unsaturated fatty acids were found as a minor component.     

The fatty acid composition of Haemophilus and Pasteurella multocida cells as a phylogenetic marker

When grown on meat-peptone agar with heated blood, different Haemophilus species (H. influenzae, H. parahaemolyticus, H. parasuis, H. pleuropneumoniae), including different H. influenzae serovars (a, b, c, d, e, f), and Pasteurella multocida have identical fatty acid composition, characterized by the prevalence of fatty acids with 16 carbon atoms, constituting about 70% and more of the total number of fatty acids, and a low level of fatty acids with 18 carbon atoms. P. multocida strains cultivated on meat-peptone agar with unheated blood have a greatly increased content of fatty acids with 18 carbon atoms, while the content of fatty acids with 16 carbon atoms is much lower. The identity of fatty acid composition under similar cultivation conditions, together with their similarity in other phenetic signs, is indicative of close phylogenic relationship between bacteria belonging to the genus Haemophilus and P. multocida.     

Lubricating and waxy esters, I. Synthesis, crystallization, and melt behavior of linear monoesters

Four pure jojoba wax-like esters (JLEs), having carbon chain length of 36, 40 (two isomers) and 44, were prepared by Steglish esterification of fatty acids (or acid chlorides) with fatty alcohols at room temperature. Calorimetric and diffraction data was used to elucidate the phase behavior of the esters. The primary thermal parameters (crystallization and melting temperatures) obtained from the DSC of the symmetrical molecules correspond well with the carbon numbers of the JLEs. However, the data also suggests that carbon number is not the only factor since the symmetry of the molecule also plays a significant role in the phase behavior. Overall, the JLEs show very little polymorphic activity at the experimental conditions used, suggesting that they are likely to transform the same way during melting as well as crystallization, a characteristic which may be useful in designing new waxes and lubricants. The XRD data clearly show that the solid phase in all samples consists of a mixture of a β-phase and a β'-phase; fully distinguishable by their characteristic diffraction peaks. Subtle differences between the subcell patterns and phase development of the samples were observed. Different layering of the samples was also observed, understandably because of the chain length differences between the compounds. The long spacings were perfectly linearly proportional to the number of carbon atoms. The length of the ester layers with n carbon atoms can be calculated by a formula similar to that used for the layers in linear alkane molecules.     

Rapid GC analysis of cellular fatty acids for characterizing Lactobacillus sake and Lact. curvatus strains of meat origin

A rapid procedure based on the gas chromatographic analysis of cellular fatty acids was used to differentiate between strains of Lactobacillus sake and Lact. curvatus isolated from dry salami. All strains had very similar fatty acid profiles except four of them which lacked C19 cycl acid, but neither this feature nor other differences in single fatty acid contents could be successfully correlated with the biochemical discrimination of Lact. sake from Lact. curvatus . When, however, strains were compared on the basis of the total content of fatty acids with 18 carbon atoms divided by that with 16 carbon atoms, a very good correlation with strain characterization by classical methods was achieved. It was concluded that selected cellular fatty acid ratios might be useful for characterizing phylogenetically related strains of lactic acid bacteria.     

Relationship between the culture medium and the fatty acid composition of diphtheria and non-pathogenic corynebacteria]

The gasochromatic method was applied to the study of the cellular fatty acids composition in diphtheria and nonpathogenic corynebacteria (diphtheroids and psendo diptheria bacillus). Marked differences in the content of unsaturated fatty acids were revealed in them. Thus, palmito leic acid served the preponderant unsaturated fatty acid in Corynebacteria diphtheriae, and unsaturated fatty acids with 18 carbon atoms (octadeconoic and linoleic)--in nonpathogenic corynebacteria. The mentioned changes permit use this sign as differential. When grown on Loeffler's medium all the corynebacteria under study had a similar fatty acid composition characterized by the prevalence of unsaturated fatty acids with 18 carbon atoms. On the basis of studying the fatty acid spectrum of the nutrient media used it is supposed that one of the factors determining the revealed dependence of the corynebacterial fatty acid composition on the culture medium was the fatty acid composition of the latter.     

Permeability characteristics of the adipocyte cell membrane and partitioning characteristics of the adipocyte triglyceride core.

The unidirectional rates of passive permeation of a homologous series of saturated fatty acids and bile acids into rat epididymal adipocytes were measured to determine the permeability characteristics of this mammalian cell membrane. For fatty acids containing 5 to 12 carbon atoms the logarithm of the permeability coefficient was a linear function of the number of carbons in the fatty acid chain: fatty acids with less than five carbon atoms showed anomalously high permeabilities. Using the data for the fatty acids with 5 to 12 carbon atoms, the incremental free energy of transfer (delta delta F w leads to l) of the -CH2 moiety from the aqueous environment into the fat cell was calculated to equal -547 cal mole-1. The delta delta F w leads to l of the -OH moiety calculated from data using bile acids as the probe molecules was +1,225 cal mole-1. After rupturing the fat cells by freeze-thawing, partition ratios also were measured between bubber and the lipid phase of the adipocyte core using both the fatty acid series and a series of terminal diols as probe molecules. Using these partition ratios delta delta F w leads to l for the -CH2 and -OH substituent groups was calculated to equal -830 and +2,070 cal mole-1, respectively. On the basis of these studies, two conclusions were drawn. First, like many epithelial surfaces and the erythrocyte membrane, the fat cell membrane exhibits anomalously high permeabilities to small molecular weight, polar compounds. Since this behavior in the adipocyte, as in the erythrocyte, cannot be attributed to structures such as tight junctions, it must be explained on the basis of some physico-chemical feature of the cell membrane itself. Secondly, the values of the delta delta F w leads to l indicate that the adipocyte membrane is less polar than the intestinal and gallbladder membranes but more polar than the membranes of Nitella and the erythrocyte.     

Medium-Chain Fatty Acids Affect Citrinin Production in the Filamentous Fungus Monascus ruber

During submerged culture in the presence of glucose and glutamate, the filamentous fungus Monascus ruber produces water-soluble red pigments together with citrinin, a mycotoxin with nephrotoxic and hepatoxic effects on animals. Analysis of the ¹³C-pigment molecules from mycelia cultivated with [1-¹³C]-, [2-¹³C]-, or [1,2-¹³C]acetate by ¹³C nuclear magnetic resonance indicated that the biosynthesis of the red pigments used both the polyketide pathway, to generate the chromophore structure, and the fatty acid synthesis pathway, to produce a medium-chain fatty acid (octanoic acid) which was then bound to the chromophore by a trans-esterification reaction. Hence, to enhance pigment production, we tried to short-circuit the de novo synthesis of medium-chain fatty acids by adding them to the culture broth. Of fatty acids with carbon chains ranging from 6 to 18 carbon atoms, only octanoic acid showed a 30 to 50% stimulation of red pigment production, by a mechanism which, in contrast to expectation, did not involve its direct trans-esterification on the chromophore backbone. However, the medium- and long-chain fatty acids tested were readily assimilated by the fungus, and in the case of fatty acids ranging from 8 to 12 carbon atoms, 30 to 40% of their initial amount transiently accumulated in the growth medium in the form of the corresponding methylketone 1 carbon unit shorter. Very interestingly, these fatty acids or their corresponding methylketones caused a strong reduction in, or even a complete inhibition of, citrinin production by M. ruber when they were added to the medium. Several data indicated that this effect could be due to the degradation of the newly synthesized citrinin (or an intermediate in the citrinin pathway) by hydrogen peroxide resulting from peroxisome proliferation induced by medium-chain fatty acids or methylketones.     

牙龈卟啉菌内毒素的化学组成和SDS—PAGE的特性分析

应用气液色谱法对牙龈卟啉菌脂多糖（Ｐｇ－ＬＰＳ）和大肠杆菌脂多糖（Ｅ－ＬＰＳ）的单糖和脂肪酸进行了分析和比较。Ｐｇ－ＬＰＳ主要含有甘露糖、葡萄糖、氨基葡萄糖、半乳糖和鼠李糖。Ｅ－ＬＰＳ单糖组成与Ｐｇ－ＬＰＳ基本相似,但缺乏鼠李糖。Ｐｇ－ＬＰＳ主要含有羟基十五烷酸和羟基十七烷酸等奇数碳原子脂肪酸,Ｅ－ＬＰＳ则以羟基豆蔻酸、豆蔻酸和月桂酸等偶数碳原子脂肪酸为主。Ｐｇ－ＬＰＳ含有甲基化脂肪酸,Ｅ－ＬＰＳ则缺如。实验结果提示,Ｐｇ－ＬＰＳ和Ｅ－ＬＰＳ化学组成上的差异可能导致二者的ＳＤＳ－ＰＡＧＥ图谱明显不同。     

Interconversions and production of volatile fatty acids in the sheep rumen

1. Sheep fed at a constant rate were infused intraruminally with [1-(14)C]-acetate, -propionate or -butyrate during 5hr. periods. 2. Volatile fatty acids were estimated in the rumen contents and steady-state conditions were obtained. 3. Of the butyric acid carbon 60% was in equilibrium with 20% of the acetic acid carbon, and 2-3g.atoms of carbon were interconverted/day. 4. Little interconversion took place between propionic acid, acetic acid or butyric acid. 5. The net production rates for acetic acid, propionic acid and butyric acid were 3.7, 1.0 and 0.7moles/day respectively. 6. The production of volatile fatty acids accounted for 80% of the animal's energy expenditure.