Effects of Growth Pressure and Temperature on Fatty Acid Composition of a Barotolerant Deep-Sea Bacterium

The effects of pressure and temperature on the fatty acid composition in a barotolerant deep-sea bacterium that had branched-chain fatty acids were examined. The major fatty acids of the strain at atmospheric pressure were iso-C_15:0, C_16:1, iso-C_17:0, and iso-C_17:1. As the growth pressure increased, the proportion of unsaturated fatty acid increased because of an increase in the proportion of iso-C_17:1. On the other hand, as the growth temperature decreased, the proportion of unsaturated fatty acid increased because of the increase in the proportion of C_16:1 and C_18:1.     

Content of fatty acids ofChlorella kessleri in a deep tank fermentation

Chlorella kessleri cultivated in a deep tank contained 4.8% of non-polar lipid; 51% of this fraction represents saturated fatty acids, 7% unsaturated fatty acids. Our investigation of the fatty acids profile demonstrated even- and odd-numbered saturated and unsaturated fatty acids ranging from C₁₂ to C₂₀. Unlike in otherChlorella species, stearic acid was the dominant fatty acid found. Also shown was an elevated C_16:0 fatty acid content and a reduced level of unsaturated fatty acids.     

Ultrastructure,composition of neutral lipids and their fatty acids of Candida tropicalis strain D-2 mutants resistant to the polyene antibiotic nystatin

This report deals with data on the cell ultrastructure of Candida tropicals strain D-2 mutants resistant to the polyene antibiotic, nystatin, and with an analysis of the fractional composition of neutral lipids and their fatty acids. The ultrastructural organization of the mutant cells is characterized by thickening of the cell wall and formation of invaginations into the cytoplasm, the appearance of new formations, large vacuoles, and reduction of the system of mitochondrial cristae. Lipids of nys^r mutants differ from those of the nys^s variant in having a decreased content of steroids and some fractions of neutral lipids. Certain nys^r mutants manifest difference in the relative amounts of saturated and unsaturated fatty acids (C_16:0, C_16:1, C_18:0, C_18:1).     

Fatty acids in green algae cultivated on a pilot-plant scale

Fatty acids fromChlorella vulgaris, Scenedesmus obliquus var.acutus and from a mixed culture of the two strains, Melnik, were converted to methyl esters, separated by gas chromatography, and identified by means of standards. The spectrum of fatty acids included both saturated and unsaturated acids (with odd and even numbers of carbon atoms) from C₁₂ to C₂₂. Fatty acids C_16:0, C_18:0 and C_20:3 were the major components in all cultures. Pure strains differed from the mixed culture in the production of C_18:1, C_12:0 and C_19:2 acids; the first of these was present in higher amounts in pure cultures only, the latter two being found in the mixed culture. The level of lipids was lower as compared to the literature data and their extractability was affected by the manner of preparation of algae and extraction conditions.     

Microbial fatty acid specificity

Strains ofRhodotorula sp.,Candida spp. andLangermania sp. cultivated on polyunsaturated oil preferentially incorporated more unsaturated fatty acids. These fatty acids were used mainly for growth needs whereas the saturated ones accumulated in the microbial cell. The cellular oil and the remaining oil in the culture had a lower degree of unsaturation as compared to the initial oil, and a modified fatty acid composition.Candida lipolytica, in a chemostat continuous culture, incorporated C₁₈ fatty acids in the order of C_18:3>C_18:2>C_18:1>C_18:0, and accumulated mostly the saturated ones. The specific productivity of the cellular oil and of the oil remaining in the culture medium was 0.036 and 0.487 gg⁻¹ h⁻¹, respectively, at dilution rateD=0.2/h.     

Cell Envelope Phospholipid Composition of Burkholderia multivorans

Burkholderia multivorans causes opportunistic pulmonary infections in cystic fibrosis and immunocompromised patients. The purpose of the present study was to determine the nature of the phospholipids and their fatty acid constituents comprising the cell envelope membranes of strains isolated from three disparate sources. A conventional method for obtaining the readily extractable lipids fraction from bacteria was employed to obtain membrane lipids for thin-layer chromatographic and gas chromatography-mass spectrophotometric analyses. Major fatty acid components of the B. multivorans readily extractable lipid fractions included C_16:0 (palmitic acid), C_16:1 (palmitoleic acid), and C_18:1 (oleic acid), while C_14:0 (myristic acid), ΔC_17:0 (methylene hexadecanoic acid), C_18:0 (stearic acid), and ΔC_19:0 (methylene octadecanoic acid) were present in lesser amounts. Fatty acid composition differed quantitatively among strains with regard to C_16:0, C_16:1, ΔC_17:0, C_18:1, and ΔC_19:0 with the unsaturated:saturated fatty acid ratios being significantly less in a cystic fibrosis type strain than either environmental or chronic granulomatous disease strains. Phospholipids identified in all B. multivorans strains included lyso-phosphatidylethanolamine, phosphatidylglycerol, phosphatidylethanolamine, and diphosphatidylglycerol in similar ratios. These data support the conclusion that the cell envelope phospholipid profiles of disparate B. multivorans strains are similar, while their respective fatty acyl substituent profiles differ quantitatively under identical cultivation conditions.     

Differences in cellular fatty acids and lipid composition inClostridium pasteurianum under nitrogen-and non-nitrogen-fixing conditions

Clostridium pasteurianum total cellular saturated fatty acids increased through its growth cycle from 81% to 91% but varied significantly in the composition under nitrogen- and non-nitrogen-fixing conditions. During ammonia-assimilating growth, palmitic acid decreased from 67.7% to 43.5% by late log while marked increases in shorter chain saturated fatty acids (C_15:0 and below) and a long chain saturated C_22:0 occured. In contrast, under N₂-fixing growth conditions, palmitic acid increased from 45.5% to 84.3% by late log, representing nearly the total amound of saturated fatty acids found inC. pasteurianum. The total cellular lipid concentration decreased as the culture aged. irrespective of the nitrogen sources; however, the phospholipid concentration increased significantly during N₂-fixing growth as compared with a 50% decrease during ammonia-assimilating conditions. The implication of these differences and possible role of palmitic acid and phospholipids inC. pasteurianum nitrogen fixation process are discussed.     

Leishmania species: fatty acid composition of promastigotes

The fatty acid composition of the total lipid fractions of five different Leishmania organisms grown on Eagle's medium was determined by gas chromatography. The major fatty acids identified in the total lipid fractions of L. donovani, L. tropica major, L. tropica minor, L. tropica (England strain), and L. enriettii were C_12:0, C_13:0, C_14:0, C_15:0, C_16:0, C_17:0, C_18:0, C_18:1, C_18:2, and C_18:3. The statistical differences among the fatty acid methyl esters of different Leishmania organisms are discussed.Gas chromatographic analysis of the fatty acid methyl esters of the total lipid fractions of the original Eagle's medium and the media after harvesting of various Leishmania species revealed the presence of C_18:3 fatty acid in the total lipid fraction of the medium of L. donovani and the complete absence of 18-carbon unsaturated fatty acids in the total lipid fraction of the medium of L. enriettii. The use of such differences in the differentiation of various Leishmania species is discussed.     

Novel Psychropiezophilic Oceanospirillales Species Profundimonas piezophila gen. nov., sp. nov., Isolated from the Deep-Sea Environment of the Puerto Rico Trench

The diversity of deep-sea high-pressure-adapted (piezophilic) microbes in isolated monoculture remains low. In this study, a novel obligately psychropiezophilic bacterium was isolated from seawater collected from the Puerto Rico Trench at a depth of ∼6,000 m. This isolate, designated YC-1, grew best in a nutrient-rich marine medium, with an optimal growth hydrostatic pressure of 50 MPa (range, 20 to 70 MPa) at 8°C. Under these conditions, the maximum growth rate was extremely slow, 0.017 h⁻¹, and the maximum yield was 3.51 × 10⁷ cells ml⁻¹. Cell size and shape changed with pressure, shifting from 4.0 to 5.0 μm in length and 0.5 to 0.8 μm in width at 60 MPa to 0.8- to 1.0-μm diameter coccoid cells under 20 MPa, the minimal pressure required for growth. YC-1 is a Gram-negative, facultatively anaerobic heterotroph. Its predominant cellular fatty acids are the monounsaturated fatty acids (MUFAs) C_16:1 and C_18:1. Unlike many other psychropiezophiles, YC-1 does not synthesize any polyunsaturated fatty acids (PUFAs). Phylogenetic analysis placed YC-1 within the family of Oceanospirillaceae, closely related to the uncultured symbiont of the deep-sea whale bone-eating worms of the genus Osedax. In common with some other members of the Oceanospirillales, including those enriched during the Deepwater Horizon oil spill, YC-1 is capable of hydrocarbon utilization. On the basis of its characteristics, YC-1 appears to represent both a new genus and a new species, which we name Profundimonas piezophila gen. nov., sp. nov.     

Starvation Response of the Marine Barophile CNPT-3

The psychrophilic marine barophile CNPT-3 underwent a starvation-survival response similar to that reported for the marine bacteria Ant-300, DW1, and S-14. The number of culturable cells increased initially and then decreased gradually over a 24-day starvation period, with corresponding decreases in total cell number and direct viability count. A significant reduction in cell size and biovolume accompanied these changes. Starved cells demonstrated a greater tendency to attach at the in situ pressure (400 atm; ca. 40.5 MPa) and temperature (5°C) than at 1 atm (ca. 101 kPa), and the extent of attachment increased with increasing duration of starvation. The membrane fatty acid profile of the marine barophile CNPT-3 was studied as the cells were subjected to starvation conditions. A 37.5% increase in saturated fatty acids was observed during the first 8 days of starvation, with a concomitant decrease in unsaturated fatty acids. There was also an increase in the amount of short-chain (<C_15:0) fatty acids.     

Changes in Ester-Linked Phospholipid Fatty Acid Profiles of Subsurface Bacteria during Starvation and Desiccation in a Porous Medium

Ester-linked phospholipid fatty acid (PLFA) profiles of a Pseudomonas aureofaciens strain and an Arthrobacter protophormiae strain, each isolated from a subsurface sediment, were quantified in a starvation experiment in a silica sand porous medium under moist and dry conditions. Washed cells were added to sand microcosms and maintained under saturated conditions or subjected to desiccation by slow drying over a period of 16 days to final water potentials of approximately - 7.5 MPa for the P. aureofaciens and - 15 MPa for the A. protophormiae. In a third treatment, cells were added to saturated microcosms along with organic nutrients and maintained under saturated conditions. The numbers of culturable cells of both bacterial strains declined to below detection level within 16 days in both the moist and dried nutrient-deprived conditions, while direct counts and total PLFAs remained relatively constant. Both strains of bacteria maintained culturability in the nutrient-amended microcosms. The dried P. aureofaciens cells showed changes in PLFA profiles that are typically associated with stressed gram-negative cells, i.e., increased ratios of saturated to unsaturated fatty acids, increased ratios of trans- to cis-monoenoic fatty acids, and increased ratios of cyclopropyl fatty acids to their monoenoic precursors. P. aureofaciens starved under moist conditions showed few changes in PLFA profiles during the 16-day incubation, whereas cells incubated in the presence of nutrients showed decreases in the ratios of both saturated fatty acids to unsaturated fatty acids and cyclopropyl fatty acids to their monoenoic precursors. The PLFA profiles of A. protophormiae changed very little in response to either nutrient deprivation or desiccation. Diglyceride fatty acids, which have been proposed to be indicators of dead or lysed cells, remained relatively constant throughout the experiment. Only the A. protophormiae desiccated for 16 days showed an increase in the ratio of diglyceride fatty acids to PLFAs. The results of this laboratory experiment can be useful for interpreting PLFA profiles of subsurface communities of microorganisms for the purpose of determining their physiological status.     

Separation and Identification of Fatty Acids

For the characterization of fatty acids, 2, 4-dinitrophenylhydrazones of p-bromophenacyl esters of even-numbered saturated fatty acids from C₂ to C₂₀ and several unsaturated fatty acids from monoethenoid to triethenoid were prepared. The derivatives of linoleic and linolenic acids as well as those of the other unsaturated and saturated acids, were successfully obtained in crystalline forms which showed sharp and high melting points, 72° and 69°, respectively. It was found that the derivatives of unsaturated acids were valuable for characterizing the parent acids, while those of saturated acids were unsuitable for this purpose owing to the similarity of their melting points.     

Significant year-to-year variation of the response to radiation-induced stress shown by gill fatty acid metabolism in eels (Anguilla anguilla captured from the wild

• 1.1. In eels captured in Roskilde Fjord in 1972 and 1975, a specifically enhanced synthesis was found from ¹⁴C-acetate of ¹⁴C-labelled mono-unsaturated fatty acids (C_16:1 and C_18:1) relative to saturated fatty acids (C_16:0 and C_18:0) in sea water 4 days after irradiation (10 Gy, ⁶⁰Co).
• 2.2. Corresponding experiments in 1976 and 1982 showed rather the opposite: irradiation resulted in more ¹⁴C-labelled saturated fatty acids relative to unsaturated fatty acids, both in fresh and sea water.
• 3.3. The latter effect was less marked than that in 1972 and 1975, but still statistically clearly significant.

     

Cis-unsaturated fatty acids modulate the function of the cell-surface cAMP receptor of Dictyostelium discoideum

The binding of cAMP to the chemotactic cAMP receptor in intact Dictyostelium discoideum cells and isolated membranes is strongly inhibited by unsaturated fatty acids. In isolated membranes, cis-unsaturated fatty acids decreased the number of accessible cAMP binding sites, without significantly altering their affinity. Most potent were C₁₈ and C₂₀ cis-poly unsaturated fatty acids, like arachidonic acid, linoleic acid and linolenic acid. Trans-unsaturated fatty acid was less potent than its cis isomer, while saturated fatty acids did not affect the binding of cAMP to receptors at all. Oxidation reactions were not important for the effect of unsaturated fatty acids. When membranes were preincubated with millimolar concentrations of Ca²⁺, the effect of unsaturated fatty acids was strongly diminished. Mg²⁺ was ineffective. Ca²⁺, if presented after the incubation of membranes with unsaturated fatty acids, did not reverse the inhibitory effect. The specificity of the fatty acid effect, and the interference with Ca²⁺, but not Mg²⁺, suggest that the properties of the cAMP receptor are changed as a result of alterations in the lipid bilayer structure of the membrane.     

Effects of Hydrostatic Pressure on Growth and Luminescence of a Moderately-Piezophilic Luminous Bacteria Photobacterium phosphoreum ANT-2200

Bacterial bioluminescence is commonly found in the deep sea and depends on environmental conditions. Photobacterium phosphoreum ANT-2200 has been isolated from the NW Mediterranean Sea at 2200-m depth (in situ temperature of 13°C) close to the ANTARES neutrino telescope. The effects of hydrostatic pressure on its growth and luminescence have been investigated under controlled laboratory conditions, using a specifically developed high-pressure bioluminescence system. The growth rate and the maximum population density of the strain were determined at different temperatures (from 4 to 37°C) and pressures (from 0.1 to 40 MPa), using the logistic model to define these two growth parameters. Indeed, using the growth rate only, no optimal temperature and pressure could be determined. However, when both growth rate and maximum population density were jointly taken into account, a cross coefficient was calculated. By this way, the optimum growth conditions for P. phosphoreum ANT-2200 were found to be 30°C and, 10 MPa defining this strain as mesophile and moderately piezophile. Moreover, the ratio of unsaturated vs. saturated cellular fatty acids was found higher at 22 MPa, in agreement with previously described piezophile strains. P. phosphoreum ANT-2200 also appeared to respond to high pressure by forming cell aggregates. Its maximum population density was 1.2 times higher, with a similar growth rate, than at 0.1 MPa. Strain ANT-2200 grown at 22 MPa produced 3 times more bioluminescence. The proposed approach, mimicking, as close as possible, the in situ conditions, could help studying deep-sea bacterial bioluminescence and validating hypotheses concerning its role into the carbon cycle in the deep ocean.     

IN VIVO METABOLISM OF [G-3H]LIGNOCERIC ACID IN DEVELOPING RAT BRAIN1

Abstract— [G-³H]Lignoceric acid (tetracosanoic acid) was injected into the brains of 20-day-old rats, and the animals were killed after 8, 24, or 72 h. Various lipids were isolated from these brains, and the distribution of radioactivity was determined. The injected free acid rapidly disappeared, and the radioactivity was incorporated into varying chain-length nonhydroxy- and hydroxy saturated fatty acids of sphingolipids and phospholipids. Little radioactivity was found in unsaturated acids, sphingo-sine, and cholesterol. A time-dependent shift of the label among various fatty acids was relatively small 8 h after injection, probably because of the metabolic stability of the brain sphingolipids. In cerebrosides, the radioactivity was equally distributed between nonhydroxy and x-hydroxy fatty acids of all chain lengths. C₂₃ and C₂₂ fatty acids contained equal total radioactivities; C₂₃ and C₂₄ fatty acids contained similar specific activities. These results confirm the significant role of a-hydroxylation and 2-oxidation in the synthesis of very long-chain fatty acids in brain. In total lipid fatty acids, docosanoic acid (22:0) contained more radioactivity than its α-oxidation precursor, α-hydroxytricosanoic acid (23h:0) at all times. In sphingolipid fatty acids, the specific activity of 21:0 was always higher than that of its ct-oxidation precursor 22:0. These observations indicate that part of the 22:0 and 21:0 was derived by β-oxidation from the injected lignoceric acid or its α-oxidation product, respectively.     

FATTY ACIDS AND HYDROXY FATTY ACIDS IN THREE SPECIES OF FRESHWATER EUSTIGMATOPHYTES

The monocarboxylic fatty acids and hydroxy fatty acids of three species of freshwater microalgae—Vischeria punctata Vischer, Vischeria helvetica (Vischer et Pascher) Taylor, and Eustigmatos vischeri (Hulbert) Taylor, all from the class Eustigmatophyceae— were examined. Each species displayed a very similar distribution of fatty acids, the most abundant of which were 20:5n-3, 16:0, and 16:1n-7; C₁₈ polyunsaturated fatty acids were minor components. These fatty acid distributions closely resemble those found in marine eustigmatophytes but are quite distinct from those found in most other algal classes. These microalgae also contain long-chain saturated and unsaturated monohydroxy fatty acids. Two distinct types of hydroxy fatty acids were found: a series of saturated α-hydroxy acids ranging from C₂₄ to C₃₀ with a shorter series of monounsaturated α-hydroxy acids ranging from C₂₆ to C₃₀ together with a series of saturated β-hydroxy acids ranging from C₂₆ to C₃₀. The latter have not previously been reported in either marine or freshwater microalgae, although C₃₀ to C₃₄ midchain (ω-18)-hydroxy fatty acids have been identified in hydrolyzed extracts from marine eustigmatophytes of the genus Nannochloropsis, and C₂₂ to C₂₆ saturated and monounsaturated α-hydroxy fatty acids have been found in three marine chlorophytes. These findings have provided a more complete picture of the lipid distributions within this little studied group of microalgae as well as a range of unusual compounds that might prove useful chemotaxonomic markers. The functions of the hydroxy fatty acids are not known, but a link to the formation of the lipid precursors of highly aliphatic biopolymers is suggested.     

Cellular fatty acid composition ofCorallococcus coralloides

The fatty acid composition of five strains ofCorallococcus coralloides and three reference species ofMyxococcus were determined by gas-liquid chromatography. Methyl esters of fatty acid containing from 12 to 22 carbon atoms were identified. The major fatty acids present were C₁₅ and C₁₇ saturated branched chain, and both C₁₆ saturated and unsaturated straight chain acids. The C₁₇ saturated branched and straight chain acids, which were in valuable concentration in species ofMyxococcus, were not, however, detected in all strains ofC. coralloides. The application of these results in the distinction ofC. coralloides from the genusMyxococcus is discussed.     

CHANGES OF FATTY ACIDS IN LARVAE OF THE WHEAT BLOSSOM MIDGE,SITODIPLOSIS MOSELLANA (GEHIN) (DIPTERA: CECIDOMYIIDAE)*

Abstract The changes of fatty acids in larvae of the wheat blossom midge, Sitodiplosis mosellana (Gehin) at different periods were examined by gas choromatography. There were 10–16 kinds of fatty acids, of which the predominant ingredients were palmitic (C_16:0), oleic (C_18:1) and linoleic (C_18:2) acids which were more than 95% in total fatty acids, stearic acid (C_18:0) about 2%‐3.5% and any of the others was less than 1%. The fatty acid compositions increased from mid‐May, when larvae of the wheat blossom midge left the wheat‐ears and fallen on the ground, to April of next year before pupating and emerging. No arachidic acid (C_20.0) was discovered in over‐summering, over‐wintering as well as inactive over‐wintered larvae. The content of saturated fatty acids in over‐summering, overwintering as well as inactive over‐wintered larvae were less than those of in active over‐wintered larvae and wheat‐ear larvae. Therefore, changes of the arachidic acid and the proportions of saturated fatty acids/unsaturated fatty acids could be used as one of the biochemical criteria to determine the active state and the degree of diapause in larvae of the wheat blossom midge.     

Fatty-Acid Composition of Candida utilis as Affected by Growth Temperature and Dissolved-Oxygen Tension

Analyses were made of the fatty-acid composition of Candida utilis NCYC 321 grown in a chemostat at a dilution rate (equal to growth rate) of 0.1 hr⁻¹ and at temperatures in the range of 30 to 15 C and dissolved oxygen tensions between 75 and <1 mm of Hg. Cells grown under glucose limitation or NH₄⁺ limitation contained mainly C_16:0, C_16:1, C_18:0, C_18:1, C_18:2, and C_18:3 acids as detected by gas-liquid chromatography of methyl esters of the acids from lipids extracted with chloroform-methanol. The relative proportions of these acids varied with the growth temperature and the dissolved-oxygen tension in the culture. A decrease in growth temperature from 30 to 20 C led to an increased synthesis of unsaturated acids in cells grown under either limitation at a fixed-oxygen tension in the range of 75 to 5 mm of Hg. In cultures with a dissolved-oxygen tension of 1 and <1 mm of Hg, a further decrease in temperature to 15 C caused an increased synthesis of unsaturated fatty acids. A decrease in dissolved-oxygen tension led to a diminished synthesis of unsaturated fatty acids in cells grown at a fixed temperature under either limitation. Cells grown at a fixed temperature under glucose limitation synthesized a greater proportion of C₁₆ acids at the expense of C₁₈ acids as the dissolved oxygen tension was decreased from 75 to <1 mm of Hg. A preferential synthesis of C₁₆ acids also occurred as the growth temperature was decreased from 30 to 15 C in cells grown under glucose limitation at a fixed-oxygen tension. The same effect was observed in cells grown under NH₄⁺ limitation when the temperature was lowered from 30 to 20 C; but when the temperature was decreased further to 15 C, the cells synthesized a slightly greater proportion of C₁₈ acids. Synthesis of a large proportion of C₁₆ acids was accompanied by an excretion of pyruvate, and occasionally traces of 2-ketoglutarate, and an increased intracellular accumulation of certain amino acids.