Degradation of long-chain n-alkanes by the yeast Candida maltosa

Summary The yeast Candida maltosa precultivated on liquid n-alkanes utilized different solid n-alkanes (especially C₂₀–C₂₅) in the presence of pristane as an organic phase with rates comparable to, or somewhat larger than, those of liquid n-alkanes. Analysis of cellular fatty acids indicated an assimilation of solid n-alkanes via monoterminal oxidation. The resulting fatty acids with substrate chain length were chain-shortened by C₂ units down to an optimal range of chain length from C₁₆ to C₁₈ and incorporated into cellular, lipids directly or after desaturation. The intermediates of chain-shortening with numbers of carbon atoms higher than C₁₈, as well as the unusually long-chain fatty acids of substrate chain length, were detected in trace amounts only. Even-carbon-numbered and odd-numbered fatty acids predominated in experiments with evenchain and odd-chain n-alkanes, respectively. Studies with cerulenin indicated that de novo synthesis of fatty acids was negligible. Oxidation of solid n-alkanes by the yeast C. maltosa yielded fatty acid patterns similar to those of cells grown on liquid n-alkanes.     

Chemical composition of cornicle secretion of the brown citrus aphid Toxoptera citricida

Brown citrus aphid Toxoptera citricida Kirkadly is considered as an important pest of citrus because it vectors citrus tristeza closterovirus. Aphids secrete a fluid from their cornicles as a defensive mechanism against natural enemies. Earlier studies on cornicle secretions of aphids focus only on triglycerides and fatty acids. In the present study, three different methods are used to investigate the chemical composition of the cornicle fluid of T. citricida. Gas chromatography with flame ionization detection is used to detect and quantify the triglycerides after trimethylsilyl derivatization, and gas chromatography‐mass spectrometry (GC‐MS) is used to determine the fatty acid composition after derivatization with boron trifluoride–methanol. Other compounds are detected using GC‐MS after methoxyamine hydrochloride and N‐methyl‐N‐(trimethylsilyl)trifluoroacetamide derivatization. The major fatty acid in the cornicle secretion of T. citricida is palmitic acid. Oleic, stearic, myristic, myristoleic and sorbic acids are also detected, although in low amounts. Sorboyl, dipalmitoyl (C_6‐2, C₁₆, C₁₆) and disorboyl, stearoyl (C_6‐2, C_6‐2, C₁₈) are the main triglycerides detected in cornicle secretion. Trehalose is the most predominant sugar (558.2 mm ), followed by glucose (92.0 mm ) and inositol (48.8 mm ). Many amino acids, including proline, glycine, alanine and serine, are also detected. In addition, the cornicle secretion is rich in many organic acids, including malic, citric, succinic and lactic acid. Information obtained from the present study improves our understanding of the chemical composition of the cornicle secretion of the brown citrus aphid.     

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.     

Alterations in growth temperature range and fatty acid composition of Thermus as a result of plasmid elimination

Elimination of plasmids from Thermus flavus, T. thermophilus and three wild Thermus strains caused alterations in growth temperature range, pigmentation and membrane fatty acids without affecting viability. Following plasmid elimination all Thermus strains lost their ability to grow above 70°C. In addition, the minimum growth temperature was lowered by 5–10°C. Fatty acids were reduced by an average of approximately 35%. In addition, the contribution of iso- and anteisobranched fatty acids were altered in four of the five strains. The iso C_15:0/iso C_17:0 ratio approached 1.0 in all strains, whereas the anteiso C_15:0/anteiso C_17:0 was reduced to 0.2. The iso C_16:0/normal-C_16:0 ratio increased in all strains due to an increase in iso C_16:0 in four strains and a reduction in normal-C_16:0 relative to iso C_16:0 in one strain. However, it was evident that the plasmid-free strains were able to compensate for these alterations in membrane fluidity to a certain extent by reducing the average chain length of isobranched acids. Altered fatty acid metabolism at the level of precursors may have influenced membrane composition and consequently growth temperature range.     

Biosynthesis of acyclic methyl branched polyunsaturated hydrocarbons inPseudomonas maltophilia

Summary The hydrocarbon composition ofPseudomonas maltophilia was determined by gas chromatography-mass spectrometry. Mono-, di- and tri-unsaturated alkenes were identified with a predominance of polyunsaturated components. The carbon chains of the alkenes contained single methyl branches iniso andanteiso position and double methyl branches in theiso-iso andanteiso-anteiso configurations. The composition of the hydrocarbons from cells grown in synthetic media enriched with amino acids or volatile fatty acids demonstrated that the probable precursors incorporated into individual hydrocarbons were branched and normal fatty acid chains in the range from C₃ to C₁₆. The probable fatty acid precursors which were connected together to form the major triunsaturated hydrocarbon chains were two monounsaturated chains, whereas the major liunsaturated chains resulted from condensation of saturated and monounsaturated chains. The probable precursors for the major monounsaturated hydrocarbons were C₁₄ (C₁₅) and C₁₆ (C₁₅) fatty acids. The accumulation of hydrocarbons was not detected until the cells were in the late exponential phase of growth; the maximal levels were reached at the mid-stationary phase of growth.     

Studies on monoacylglycerols from Gordona lentifragmenta,Gordona bronchialis and Gordona rubropertincta

Monoacylglycerols containing α-branched-β-hydroxylated fatty acids (mycolic acids) ranging from C₄₂ to C₅₀ and from C₆₀ to C₆₆, were isolated from Gordona lentifragmenta and from G. bronchialis, respectively. On the other hand, G. rubropertincta showed only a monoacylglycerol fraction which released non-hydroxylated fatty acids; they were identified as C_16:0-, C_16:1,- C_18:1- and branched C_19:0-fatty acids. This last component was identified as 10-methyl octadecanoic acid (tuberculostearic acid).     

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.     

IN VIVO STUDIES ON THE METABOLISM OF [15,16-3H]TETRACOSANOIC ACID (LIGNOCERIC ACID) IN ADULT RAT BRAIN

—Adult rats were killed 16 h, 48 h, 6 days and 21 days after intracerebral application of n-[15,16-³H]tetracosanoic acid (lignoceric acid). After incorporation into complex lipids with a strong preference for the ester-bound fatty acids of glycerophospholipids, radioactivity decreased with time. The incorporated activity into the amide-bound fatty acids of sphingolipids was also shown to decrease, with exception of the cerebroside of the hydroxy fatty acid type (cerebron fraction). Only negligible amounts of labelled triglyceride and cholesterol ester could be detected. The fatty acids derived from the complex lipids were analysed by radio gas chromatography. It was revealed that some of the applied labelled lignoceric acid was hydroxylated and incorporated into the cerebron fraction while the rest had their chains shortened. In the latter case all even and odd numbered chain lengths down to C₁₈ and C₁₆ (stearic and palmitic acid) were detected. At this stage, the pool of the degradation products of lignoceric acid is stabilized by the preferred incorporation of fatty acids of these chain lengths into glycerophospholipids. A time-dependent desaturation to oleic acid from stearic acid was observed.     

Differences in lipid composition between free-living and initially adhered cells of a Gram-negative bacterium

The phospholipid fatty acid composition and poly--hydroxybutyrate (PHB) content of initially adhered and free-living cells of a Pseudomonas sp. isolated from the rape plant Brassica napus were examined with gas chromatography (GC). Five different adhesion experiments were made including variations in surface charge (hydrophilic and lipophilic), temperature, media composition and time of adhesion. Lipids and poly--hydroxybutyrate (PHB) were extracted with a chloroform-methanol-water mixture, hydrolyzed and esterified with pentafluorobenzyl bromide. Analysis was performed with capillary gas chromatography and flame ionization detection. A pronounced difference in both the ratio saturated/unsaturated fatty acids and in PHB content between free-living and adhered bacteria were found. The free-living bacteria has a significantly smaller ratio of saturated/unsaturated C₁₆ and C₁₈ fatty acids and also a smaller ratio of total C₁₈/total C₁₆ fatty acids. Bacteria adhered to the lipophilic surface had a higher ratio of saturated to unsaturated C₁₆ fatty acids than at the hydrophilic surface. There were no major differences between the treatments regarding the amount of bacteria adhered to the surface or their lipid composition.     

Sterols,sterol esters and fatty acids of Botrydium granulatum, Tribonema aequale and Monodus subterraneus

The composition of the sterols, sterol esters and fatty acids has been determined in 8-, 11- and 14-day cultures of three members of the Xanthophyceae, Botrydium granulatum, Tribonema aequale and Monodus subterraneus. The main sterols, whether esterified or unesterified, were cholesterol and clionasterol, whose proportions do not vary with age of culture. Much smaller quantities of cycloartenol and 24-methylenecycloartanol were also found in all three algae. The C₁₆ fatty acids are the most common fatty acids in all three algae with C_16:1 being particularly abundant. B. granulatum and T. aequale, however, differ from M. subterraneus in having polyunsaturated C₁₆ fatty acids and a smaller proportion of C_20:5.     

Fatty acids and long-chain bases of gangliosides of human gastrointestinal mucosa

The fatty acid and long-chain base composition of five major gangliosides from human stomach and small and large intestine mucosa were analyzed with gas chromatography. All the gangliosides greatly resembled each other in the fatty acid pattern. The main fatty acids were C_16:0, C_18:0 and C_24:0. No hydroxy fatty acids could be detected. In all the gangliosides 4-sphingenine was the predominant long-chain base (70–75%). About 15% of the long-chain bases had 20 carbon atoms in their chain. No trihydroxy long-chain bases could be detected.     

RADIOLABELING STUDIES OF LIPIDS AND FATTY ACIDS IN NANNOCHLOROPSIS (EUSTIGMATOPHYCEAE), AN OLEAGINOUS MARINE ALGA1

The synthesis of fatty acids and lipids in Nannochloropsis sp. was investigated by labeling cells in vivo with [¹⁴C]-bicarbonate or [¹⁴C]-acetate. [¹⁴C]-bicarbonate was incorporated to the greatest extent into 16:0, 16:1, and 14:0 fatty acids, which are the predominant fatty acids of triacylglycerols. However, more than half of the [¹⁴C]-acetate was incorporated into longer and more desaturated fatty acids, which are constituents of membrane lipids. [¹⁴C]-acetate was incorporated most strongly into phosphatidylcholine, which rapidly lost label during a 5-h chase period. The label associated with phosphatidylethanolamine also decreased during the chase period, whereas label in other membrane lipids and triacylglycerol increased. The dynamics of labeling, along with information regarding the acyl compositions of various lipids, suggests that 1) the primary products of chloroplast fatty acid synthesis are 14:0, 16:0, and 16:1; 2) C₂₀ fatty acids are formed by an elongation reaction that can utilize externally supplied acetate; 3) phosphatidylcholine is a site for desaturation of C₁₈ fatty acids; and 4) phosphatidylethanolamine may be a site for desaturation of C₂₀ fatty acids.     

Isolation and Characterization of a Neutral Glycosphingolipid from the Epimastigote Form of Trypanosoma mega1

ABSTRACT. A glycosphingolipid fraction from Trypanosoma mega was isolated after acetylation and was further purified on a silicic acid column. Final purification was by preparative thin-layer chromatography. The carbohydrate components of the glycolipid were fucose and galactose in approximately equimolar amounts. The neutral glycolipid of T. mega has a sphingosine base composition that consists of sphingosine and traces of dihydrosphingosine. Fatty acids forming amide groups with the sphingosine bases were analyzed by gas-liquid chromatography-mass spectrometry and are a mixture of normal and α-hydroxy fatty acids. Normal C_16:0, C_18:0, and 2-hydroxy C_18:0 are the predominant fatty acids.     

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.     

纤维单胞菌属放线菌的研究进展

纤维单胞菌属(Cellulomonas)的一些菌株能够产生多种纤维素酶,在纤维素降解方面显示出明显优势。1923年Bergey等以产黄纤维单胞菌为模式菌建立了纤维单胞菌属。1991年Stackebrand和Prauser又以纤维单胞菌属为模式属建立了纤维单胞菌科(Cellulomonadaceae)。目前,纤维单胞菌属包含有从多种环境中分离培养得到的26个有效描述种。纤维单胞菌属菌株在分类学上的典型特征是:细胞壁的肽聚糖成分主要含有Orn和Glu/Asp,以MK-9(H4)为主要的甲基萘醌,主要的脂肪酸成分为anteiso-C15:0和C16:0,极性脂成分主要包括双磷脂酰甘油(DPG)和磷脂酰肌醇甘露糖甙(PIM)。基因组DNA的G+C含量为(68.5–76.0)mol%。最近,本实验室分离到2株纤维单胞菌,应用多相分类研究手段确定了他们的分类学地位。本文将结合我们的研究,对纤维单胞菌属的建立、分类学特征及其在生态和酶资源应用方面进行综述。     

Distribution of C22-, C24- and C26-α-Unit-Containing Mycolic Acid Homologues in Mycobacteria

There are three mycolic acid homologues with C₂₂-, C₂₄- and C₂₆-α-units in Mycobacterium. In order to reveal the composition and distribution of these homologues in each subclass and molecular species of mycolic acids and to compare them with the composition of constitutive non-polar fatty acids (free and bound forms), we have separated non-polar fatty acids and each subclass of mycolic acids from 21 mycobacterial species by thin-layer chromatography, and analyzed non-polar fatty acid methyl esters by gas chromatography (GC) and the cleavage products of methyl mycolate by pyrolysis GC. We further performed mass chromatographic analysis of trimethylsilyl (TMS) ether derivatives of mycolic acid methyl esters by monitoring [B-29]⁺ ions (loss of CHO from the α-branched-chain structure of mycolic acids) of m/z 426, 454 and 482 which are attributed to C₂₂-, C₂₄- and C₂₆-α-units of TMS ether derivatives of methyl mycolates, respectively, (Kaneda, K. et al, J. Clin. Microbiol. 24: 1060-1070, 1986). By pyrolysis GC, C_22:0, C_24:0 and C_26:0 fatty acid methyl esters generated by the C₂-C₃ cleavage of C₂₂-, C₂₄- and C₂₆-α-unit-containing mycolic acid methyl esters, respectively, were detected. Their proportion was almost the same among subclasses of mycolic acids in every Mycobacterium and also similar to the proportion of constitutive non-polar C_22:0, C_24:0 and C_26:0 fatty acids. By mass chromatography, the composition and distribution of C₂₂- and C₂₄-α-unit-containing homologues were revealed to be similar between α- and α'-mycolic acids in every Mycobacterium. We further analyzed in detail M. vaccae and demonstrated that the mass chromatogram of C₂₂-α-unit-containing homologue was analogous in shape to that of the C₂₄-α-unit-containing one, with the latter mass chromatogram being up-shifted from the former by two carbon numbers, in every subclass of α-, α'-, keto and dicarboxy mycolic acids. The present study suggests that the compositions of three homologues of both mycolic acids and constitutive non-polar fatty acids, which are characteristic to each mycobacterial species, may reflect the proportion of the amount of free C_22:0, C_24:0 and C_26:0 fatty acids synthesized in the cell. It is further demonstrated that intermolecular condensation of two fatty acids which become α- and β-units of mycolic acids will occur independently of the carbon chain length or kinds of polar moieties of fatty acids.     

The distribution of fatty acids including petroselinic and tariric acids in the fruit and seed oils of the Pittosporaceae, Araliaceae, Umbelliferae, Simarubaceae and Rutaceae

The fatty acid composition of the fruit oils or seed oils of Pittosporaceae (eight genera, 10 species), Araliaceae (two species), Simarubaceae (three species), and of one umbelliferous and one rutaceous species were determined by gas chromatography, argentation TLC and ozonolysis. In the Pittosporaceae, in which the major C₁₈ fatty acid of all species was either oleic acid (18:1, 9c) or linoleic acid (18:2, 9c, 12c), large amounts of C₂₀ and C₂₂ fatty acids seem to occur regularly. Petroselinic (18:1, 6c) and tariric (18:1, 6a) acids were absent. However, petroselinic acid was the major fatty acid in the Araliaceae and Umbelliferae. In these two families only small amounts of C₂₀ and C₂₂ acids were detected and tariric acid was absent. The Rutales contained relatively high amounts of trans-octadecenoic acids (18:1, 9t). Tariric acid was the major fatty acid in the two species of Picramnia (Simarubraceae), which also contained small amounts of petroselinic acid. The major fatty acids in Ailanthus glandulosa (Simarubaceae) and Phellodendron amurense (Rutaceae) were linoleic or linolenic acid (18:3, 9c, 12c, 15c); these species contained neither tariric nor petroselinic acid and the levels of C₂₀ and C₂₂ fatty acids were low. The appearance of schizogenous resin canals and polyacetylenes and the absence of iridoids and petroselinic acid allows the Pittosporaceae to be separated from the Rutales and Araliales and to be placed in an independent order, the Pittosporales. Arguments for a rather close relationship of the Pittosporales to the Araliales and Cornales (including the Escalloniaceae) are presented.     

Fatty acids and aldehydes of brain phospholipids during fetal and infant development in man

Abstract— Brains of human fetuses III, V, VI, VII months) newborn and infants (3, 7 and 13 months old) were investigated and the contents of total lipid, neutral- and phospholipid fractions were estimated. Fatty acids as well as fatty aldehydes of the phosphatides were analysed by gas chromatography. The results showed, that during this period of development the C₁₆-compounds in the fatty acid and aldehyde fractions decrease, while the total C₁₈-derivatives increase. However, the C₁₈-monoenoic fatty acids decrease from the third fetal month until birth and increase during myelination. The same pattern was found for the C₁₈-monoenoic aldehydes. The amounts of C₂₀- and C₂₂-polyenoic fatty acids were relatively constant. Only trace amounts of aldehydes with chain lengths other than C₁₆- and C₁₈-saturated and C₁₈-monoenoic comnniinds were found.     

Fatty acids of monogalactosyl diglycerides from Citrus

Fatty acids in vesicular and leaf monogalactosyl diglycerides (MGDG) of citrus were studied. Vesicular MGDG contained front 94.4 to 97.3% C₁₆, C_16:1, C_18:1, C_18:2, and C_18:3; whereas leaf MGDG contained ca 90% C_18:3, 3% C₁₆ and 1.8 to 9.5% C_18:2. Species varied considerably in their percentages of vesicular C_18:2, C1_8:3 and to a lesser degree, C_16:1 and C_18:1 fatty acids with lemons being the most distinctive. Branched fatty acids were present to the extent of 5.6% in vesicular and to only 0.1% in leaf MGDG.     

Effects of insect cuticular fatty acids on in vitro growth and pathogenicity of the entomopathogenic fungus Conidiobolus coronatus

Eighteen fatty acids identified in the cuticle of three insect species representing differing susceptibilities to C. coronatus infection, were tested for effects on the in vitro growth and pathogenicity of the parasitic fungus. At all applied concentrations (0.1-0.0001% w/v) growth was inhibited by C_16:0, C_16:1, C_18:0, C_18:1, C_18:2, C_18:3, C_20:0 and C_20:1. At high concentrations spore germination was inhibited by C_7:0, C_8:0, C_9:0, C_10:0, C_12:0, C_18:2 and C_18:3 and hyphal growth was merely retarded by C_5:0, C_6:0, C_6:2, C_14:0, C_16:0, C_16:1, C_18:0, C_18:1, C_20:0 and C_20:1. The presence of C_15:0 at the 0.1% concentration stimulated growth of C. coronatus. Sporulation was inhibited by all concentrations of C_16:0 and C_18-20 fatty acids. Low concentrations of C_5:0, C_6:0, C_6:2 and C_7:0 enhanced sporulation. Fatty acids C_5-12 as well as C_18:3, C_20:0 and C_20:1 decreased the ability of fungal colonies to infect G. mellonella while C_16:1 elevated it thus suggesting that C_16:1 may stimulate production of enzymes involved in the host invasion. Toxicity of metabolites released into incubation medium decreased with varying degrees in the presence of C_6:0, C_6:2, C_7:0, C_9:0, C_12:0, C_16:1, C_18:2, C_18:3, C_20:0 and C_20:1; other fatty acids had no effect. Further work is needed to analyse the effects of exogenous fatty acids on the C. coronatus enzymes implicated in fungal pathogenicity as well as on the production of insecticidal metabolites.