Effect of Growth Temperature on Fatty Acid Composition of Ten Thermus Strains

The fatty acid composition of Thermus spp., including T. aquaticus ATCC 25104, T. thermophilus DSM 579, T. flavus DSM 674, and seven wild strains was examined. Organisms were tested at a minimum of either 35, 40, or 45°C and at an optimum of 60 or 70°C. Total fatty acid content per dry weight of cells varied between 1.2 and 3.7%, and the quantity of fatty acids was higher at the high temperature range in the majority of strains. At the optimum temperature, strains could be assigned to three chemotaxonomic groups with reference to the ratio of iso C_15:0/iso C_17:0. In six of the strains the ratio of iso C_15:0/iso C_17:0 remained unchanged at the minimum temperature, whereas in four strains the ratio was reversed. The proportion of the C_15:0 and C_17:0 isobranched acids was decreased and the proportion of anteisobranched fatty acids, namely anteiso C_15:0, anteiso C_17:0, and anteiso C_17:1, was increased at the lower temperature range. Some changes were seen in the levels of the n-C_16:0 and iso C_16:0 acids, but these were strain specific.     

Monounsaturated but Not Polyunsaturated Fatty Acids Are Required for Growth of the Deep-Sea Bacterium Photobacterium profundum SS9 at High Pressure and Low Temperature

There is considerable evidence correlating the production of increased proportions of membrane unsaturated fatty acids (UFAs) with bacterial growth at low temperatures or high pressures. In order to assess the importance of UFAs to microbial growth under these conditions, the effects of conditions altering UFA levels in the psychrotolerant piezophilic deep-sea bacterium Photobacterium profundum SS9 were investigated. The fatty acids produced by P. profundum SS9 grown at various temperatures and pressures were characterized, and differences in fatty acid composition as a function of phase growth, and between inner and outer membranes, were noted. P. profundum SS9 was found to exhibit enhanced proportions of both monounsaturated (MUFAs) and polyunsaturated (PUFAs) fatty acids when grown at a decreased temperature or elevated pressure. Treatment of cells with cerulenin inhibited MUFA but not PUFA synthesis and led to a decreased growth rate and yield at low temperature and high pressure. In addition, oleic acid-auxotrophic mutants were isolated. One of these mutants, strain EA3, was deficient in the production of MUFAs and was both low-temperature sensitive and high-pressure sensitive in the absence of exogenous 18:1 fatty acid. Another mutant, strain EA2, produced little MUFA but elevated levels of the PUFA species eicosapentaenoic acid (EPA; 20:5n-3). This mutant grew slowly but was not low-temperature sensitive or high-pressure sensitive. Finally, reverse genetics was employed to construct a mutant unable to produce EPA. This mutant, strain EA10, was also not low-temperature sensitive or high-pressure sensitive. The significance of these results to the understanding of the role of UFAs in growth under low-temperature or high-pressure conditions is discussed.     

Effects of Temperature Variation on the Fatty Acid Composition of a Psychrophilic Candida Species

During the batch cultivation of a psychrophilic Candida species, the proportions of oleic and linolenic acid esters in the cells underwent a cyclic variation regardless of the incubation temperature.     

Effects of pH and Temperature on the Fatty Acid Composition of Bacillus acidocaldarius

The fatty acid composition of lipid extracts from cells of Bacillus acidocaldarius grown at temperatures of 50 to 70 C and pH values of 2 to 5 was determined by gas chromatography of the methyl esters. The most abundant fatty acids are 11-cyclohexylundecanoic and 13-cyclohexyltridecanoic, followed by anteiso- and iso-heptadecanoic; unsaturated acids are absent. Highly aerated cultures produce more of the iso and anteiso acids and less of the cyclohexyl acids. The effects of temperature and pH are interdependent; at lower pH, increasing temperature raises the proportion of the iso and anteiso acids, but at higher pH the effect of increasing temperature is reversed and the proportion of the cyclohexyl acids is increased.     

Phospholipid Fatty Acid Composition of the Syntrophic Anaerobic Bacterium Syntrophomonas wolfei

The membrane phospholipid fatty acids (PLFAs) from several cocultures and a pure culture of Syntrophomonas wolfei were determined by capillary column gas chromatography. Cocultures of S. wolfei with a Desulfovibrio sp. contained PLFAs from both organisms, whereas PLFAs from a coculture with Methanospirillum hungatei contained very little biomass to analyze. The pure culture of S. wolfei grown on crotonate provided the best material for analysis of the PLFAs. The predominant PLFAs of S. wolfei were the monounsaturated 16:1ω7c and 16:1ω9c and the saturated 16:0 and 14:0. A low concentration of the diunsaturated 18:2ω6 was detected. The PLFA analysis provides additional information for consideration in the determination of the profile of PLFAs obtained from anaerobic environments. In addition, this information may aid in the understanding of the physiology and phylogeny of S. wolfei and other syntrophic bacteria.     

Effect of Temperature on Fatty Acid Composition of a White Thermus Strain

A white Thermus sp. strain, NCIMB 11245, showed high levels of anteiso C_17:0, anteiso C_17:1, normal C_16:1, and iso C_16:0 with low levels of iso C_15:0 + iso C_17:0 in comparison to yellow-pigmented strains. The fatty acid composition may be associated with precursor metabolism or the absence of carotene pigmentation.     

Effect of Growth Temperature on Phospholipid and Fatty Acid Compositions in a Psychrotrophic Bacterium, Pseudomonas sp. Strain E-3

The effect of growth temperature on the compositions of phospholipidsand fatty acids of the psychrotrophic bacterium Pseudomonassp. strain E-3 was studied. The composition of phospholipids(phosphatidylethanolamine, phosphatidylglycerol and cardiolipin)did not differ significantly in cells grown at 5?, 15?, and30?C. Phosphatidylethanolamine (PE) was the most abundant, amountingto over 70% of total phospholipids. When the growth temperaturewas lowered, palmitoleic [16:1(9)] and cis-vaccenic [18:1(11)]acids increased at the expense of palmitic (16:0) acid, especiallyin PE. In vivo experiments using [l-¹⁴C]16:0 showed that incorporationof radioactivity into 16:1(9) was oxygen-dependent and cerulenin-insensitive,and incorporation into 18:1(11) was cerulenin-sensitive. Theseresults suggest that 16:0 was aerobically desaturated to 16:1(9)and subsequently elongated to 18:1(11). Desaturation activityof 16:0 in the cells grown at 25?C was enhanced by loweringthe assay temperature. (Received February 12, 1987; Accepted July 10, 1987)     

Fatty Acid Activation by a Lipophilic Bacterium

Cell-free extracts of Nocardia asteroides activated saturated fatty acids from octanoate to octadecanoate, plus docosanoate; maximal activation occurred with dodecanoate. No activation of short-chain fatty acids was observed. The activating enzyme, characterized as an acyl-coenzyme A (Co A) synthetase (acid: Co A ligase [adenosine monophosphate]; EC 6.2.1.3), was localized in the cytoplasm of the cells and had absolute requirements for Co A, adenosine 5'-triphosphate, and Mg(2+). Kinetic data suggested that N. asteroides possessed at least two synthetases: one specific for short-chain fatty acids, and the other specific for medium- and long-chain fatty acids.     

Fatty Acid Composition of Escherichia coli as a Possible Controlling Factor of the Minimal Growth Temperature.

Shaw, Maxwell K. (University of California, Davis), and John L. Ingraham. Fatty acid composition of Escherichia coli as a possible controlling factor of the minimal growth temperature. J. Bacteriol. 90:141-146. 1965.-If Escherichia coli ML30 is shifted from 37 to 10 C during exponential growth in glucose minimal medium, a 4.5-hr lag results. During this lag, the proportion of unsaturated fatty acids increases in the cellular lipids. However, the adjustment of the fatty acid composition does not appear to be prerequisite to growth at 10 C. If shifts are made to 10 C into minimal medium containing glucose after starvation for glucose at 37 C for 0.5 and 16 hr, the lag periods at 10 C are 4.5 and 6 hr, respectively. Withholding glucose during the lag periods does not affect the duration of the lag periods, but no change in fatty acid composition occurs if glucose is not present. Supplementing the medium with glucose after the lag period permits immediate growth at 10 C; however, the fatty acid composition is still typical of cells grown at 37 C. It is concluded that the fatty acid composition of cells does not determine the minimal temperature of growth.     

Effect of Temperature on the Fatty Acid Composition of Thermus aquaticus

Thermus aquaticus contains four major fatty acids, iso-C(15) (28%), iso-C(16) (9%), normal-C(16) (13%), and iso-C(17) (48%), when grown at 70 C, as determined by gas chromatography and mass spectrometry. Small amounts of iso-C(12), normal-C(12:1), iso-C(13), normal-C(14), iso-C(14), and normal-C(15:1) were also detected. A change in growth temperature (50 to 75 C at 5-C intervals) affects a shift in the proportions of some of the fatty acids. The proportions of the monoenoic and branched-C(17) fatty acids decreased and the proportions of the higher-melting iso-C(16) and normal-C(16) fatty acids increased. Cells grown at 75 C contained 70% more total fatty acids than cells grown at 50 C. The largest increases, in absolute amounts, were in the content of iso-C(16) and normal-C(16) fatty acids, with only a 1.6-fold increase in the major iso-C(15) and iso-C(17) fatty acids. There was a 2.5-fold decrease in normal-C(15:1) and at least a 24-fold decrease in anteiso-C(17), which is present at 50 and 55 C but not at higher temperatures. There was no difference in proportion or amount of fatty acids between exponential and stationary-phase cells grown at 70 C. When cells were grown on glutamate instead of yeast-extract and tryptone at 70 C, the total fatty acid content remained constant, but there was an increase in the proportions of iso-C(16) and normal-C(16) fatty acids concomitant with a decrease in the proportions of the iso-C(15) and iso-C(17) fatty acids.     

Effects of CO(2) Concentration during Growth on Fatty Acid Composition in Microalgae

The degree of unsaturation of fatty acids was higher in Chlorella vulgaris 11h cells grown with air (low-CO₂ cells) than in the cells grown with air enriched with 2% CO₂ (high-CO₂ cells). The change in the ratio of linoleic acid to α-linolenic acid was particularly significant. This change of the ratio was observed in four major lipids (monogalactosyldiacylglycerol, digalactosyldiacylglycerol, phosphatidylcholine, and phosphatidylethanolamine). The relative contents of lipid classes were essentially the same both in high-CO₂ and low-CO₂ cells. After high-CO₂ cells were transferred to low CO₂ condition, total amount of fatty acids remained constant but the relative content of α-linolenic acid increased during a 6-hour lag phase in growth with concomitant decreases in linoleic and oleic acids. When low-CO₂ cells were transferred to high CO₂ condition, total amount of fatty acids and relative content of oleic acid increased significantly. The amount of α-linolenic acid remained almost constant, while the amounts of palmitic, oleic, and linoleic acids increased. Similar, but smaller, changes in fatty acid compositions were observed in two species of green algae Chlamydomonas reinhardtii and Dunaliella tertiolecta. However, no difference was found in Euglena gracilis, Porphyridium cruentum, Anabaena variabilis, and Anacystis nidulans.     

逆境对真菌膜脂肪酸成分的影响

利用气相色谱对真菌膜脂肪酸在逆境下的变化进行研究,发现低温胁迫时膜上的不饱和脂肪酸较多,低碳源浓度、低氧浓度和高盐浓度胁迫时,膜上不饱和脂肪酸的含量反而出现降低。表明不同逆境胁迫时,真菌中膜的脂肪酸含量不一样。     

Influences of Culture Temperature on the Growth, Lipid Content and Fatty Acid Composition of Aurantiochytrium sp. Strain mh0186

The growth, lipid content, and fatty acid composition of Aurantiochytrium sp. strain mh0186 at different temperatures were investigated. Strain mh0186 grew well at 15–30°C, but weakly at 10°C. The biomass at 15–30°C was significantly higher than at 10 and 35°C, and the total lipid at 15–35°C was significantly higher than that at 10°C. The amount of DHA in the total fatty acid was highest at 10°C and decreased in response to temperature increase. The content of DHA (mg/g-dry cell weight) at 15–30°C were significantly higher than those at 35°C and those at 15–25°C were significantly higher than those at 10 and 35°C. The DHA yield at 15–35°C was significantly higher than those at 10 and 35°C. Unsaturation of fatty acid was regulated by temperature and was enhanced in response to temperature decrease. The ratio of DHA to DPA varied at different temperatures.     

Effects of Pesticides on the Fatty Acid and Phospholipid Composition of Escherichia coli

[This corrects the article on p. 232 in vol. 40.].     

Effect of Growth Temperature on the Fatty Acid Composition of the Leaf Lipids in Atriplex lentiformis (Torr.) Wats

Plants of Atriplex lentiformis had more saturated leaf lipids when grown at 43 C day/30 C night as compared to 23/18 C temperatures. In monogalactosyl diglyceride, the major change was the presence of hexadecatrienoic acid (16:3) at low but not high growth temperatures. In other lipids investigated, the major change was a decrease in linolenic acid (18:3) and increases in the more saturated fatty acids at high growth temperatures. Growth temperatures had little effect on the relative proportions of the galacto- and sulfolipids in the leaf. The increased lipid saturation is correlated with the greater thermostability of the photosynthetic apparatus at high growth temperatures in A. lentiformis but any cause and effect relationship is uncertain.     

不同生态条件对绿色巴夫藻生长与脂肪酸组成的影响

研究不同温度、盐度、光照条件对绿色巴夫藻生长和脂肪酸组成的影响。实验结果表明:绿色巴夫藻的适温范围在5—30℃之间,最适为25℃;该藻为低盐度种类,在试验范围内都能生长,其最适盐度为6‰;生长较适宜的光照强度为3000—5000lx。巴夫藻的主要脂肪酸为C14∶0、C16∶0、C16∶1(n-7)、C18∶1(n-9)、C18∶3(n-3)、C18∶4(n-3)、C22∶6(n-3),其中在20℃时C22∶6(n-3)的含量达到最高,且PUFA(n-3)的含量也较高;在低盐度条件下有利于PUFA(n-3)的合成,盐度为6‰时C20∶5(n-3)的含量最高为总脂的6.02%,在盐度为15‰时C22∶6(n-3)的含量达到最高(总脂的17.79%);光照强度对C22∶6(n-3)的影响不大,在3000lx时C20∶5(n-3)的含量较高。结果表明低光照强度下利于PUFA(n-3)的合成,且C22∶6(n-3)的含量较高。     

The Effect of Temperature on the Fatty Acid Composition of Tetrahymena pyriformis WH-14

SYNOPSIS. A reduction in the growth temperature of Tetrahymena pyriformis strain WH-14 from 35 C to 15 C resulted in distinct alterations in the fatty acid composition of the glycerophospholipids. The proportion of normal saturated acids declined from 26 to 19%; palmitoleic acid increased by 6%, and the composition of the polyunsaturated fatty acids increased in 18:2 Δ^6,11(n) and decreased in 18:2 Δ^9,12(n) and 18:3 Δ^6,9,12(n). The unsaturation index (the average number of double bonds/100 molecules) did not change with a shift in temperature.
Two biosynthetic pathways exist in Tetrahymena for the formation of unsaturated fatty acids. The observed changes in fatty acid composition that accompany a lowering of the environmental temperature can be accounted for by a reduction in the accumulation of products of the fatty acid pathway leading to the formation of γ-linolenic acid [16:0(n) → 18:0(n) → 18:1 Δ⁹(n) → 18:2 Δ^9,12(n) → 18:3 Δ^6,9,12(n)] and an increase in the components of the pathway leading to the formation of 18:2 Δ^6,11(n) [16:0(n) → 16:1 Δ⁹(n) → 18:1 Δ¹¹(n) → 18:2 Δ^6,11(n)]. The data suggest that the regulatory mechanism in Tetrahymena differs from that found in some bacteria where a simple substitution of unsaturated fatty acids for saturated fatty acids occurs at low culture temperatures.     

共轭亚油酸甘油酯对大鼠血清脂肪酸组成影响的研究

目的：研究共轭亚油酸甘油酯对高脂饮食大鼠血清脂肪酸组成变化的影响;方法：60 只SD 大鼠随机分为5 组：正常对照 组、高脂对照组,共轭亚油酸甘油酯低（2 g/kg·bw）、中（4 g/kg·bw）、高（6 g/kg·bw）剂量组,除基础对照组外其余各组均喂饲高脂 饲料,建立高脂模型,以灌胃方式给予受试物,6 周后取血清测定其脂肪酸组成。采用一步法直接对血清中脂肪酸进行甲酯化,气 相色谱毛细管柱分离,氢火焰离子化检测器（FID）定性定量分析;结果：共轭亚油酸甘油酯低、中、高剂量组大鼠血清中单不饱和 脂肪酸含量为25.66%,18.74%,17.72%,与高脂对照组相比显著性下降（P<0.01）,各剂量组饱和脂肪酸和多不饱和脂肪酸含量分 别为48.08%,48.52%,51.15%和27.03%,29.28%,31.13%,与高脂对照组相比显著性升高（P<0.01）。几种代表性脂肪酸如各剂量 组中的油酸、亚油酸与高脂对照组相比分别增加了26.48%,41.56%,51.26% 和9.18%,8.61%,8.73%,各剂量组中棕榈酸与高脂对 照组相比降低了5.28%, 8.80%, 10.92%。结论：共轭亚油酸甘油酯能够增加大鼠血清中饱和脂肪酸和多不饱和脂肪酸的含量,减 少单不饱和脂肪酸含量,改变血清脂肪酸组成。     

Fatty Acid Composition of Spirochaeta stenostrepta

The fatty acid composition of Spirochaeta stenostrepta consists primarily of saturated, branch-chained fatty acids. Iso-C(15), anteiso-C(15), iso-C(17), and anteiso-C(17) represent 66% of the total fatty acids.