Synthesis in vitro of very long chain fatty acids in Vibrio sp. strain ABE-1

The activity of fatty acid synthetase (FAS) from Vibrio sp. strain ABE-1 required the presence of acyl carrier protein and was completely inhibited by thiolactomycin, an inhibitor specific for a type II FAS. These observations indicate that this enzyme is a type II FAS. Analysis by gas-liquid chromotography of the reaction products synthesized in vitro from [2-¹⁴C]malonyl-CoA by the partially purified FAS revealed, in addition to 16-and 18-carbon fatty acids which are normal constituents of this bacterium, the presence of fatty acids with very long chains. These fatty acids were identified as saturated and mono-unsaturated fatty acids with 20 up to as many as 30 carbon atoms. The longest fatty acids normally found in this bacterium contain 18-carbon atoms. These results suggest that the FAS from Vibrio sp. strain ABE-1 has potentially the ability to synthesize fatty acids with very long chains.Abbreviations ACP acyl carrier protein - FAME fatty acid methyl ester - FAS fatty acid synthetase - FID flame ionization detection - GLC gas-liquid chromatography - TLC thin-layer chromatography - In designations of fatty acids, such as 16:0, 16:1, etc the colon separates the number that denotes the number of carbon atoms and the number that denotes the number of double bonds, respectively, in the molecule - 16:0-CoA CoA ester of 16:0     

Submerged culture conidial germination and conidiation of the bioherbicideColletotrichum truncatum are influenced by the amino acid composition of the medium

Summary Submerged culture experiments were conducted to determine the optimal nitrogen source for rapidly producing conidia of the bioherbicide,Colletotrichum truncatum. Germination ofC. truncatum conidial inocula in submerged culture occurred most rapidly (>95% in 6 h) in media provided with a complete complement of amino acids. When (NH₄)₂SO₄, urea, or individual amino acids were provided as the sole nitrogen source, conidial germination was less than 20% after 6 h incubation. Conidia production was delayed inC. truncatum cultures grown in media with urea or individual amino acids as nitrogen sources compared to cultures supplied with Casamino acids or complete synthetic amino acid nitrogen sources. The use of methionine, lysine, tryptophan, isoleucine, leucine or cysteine as a sole nitrogen source severely inhibitedC. truncatum conidia production. Media with synthetic amino acid mixtures less these inhibitory amino acids produced significantly higher conidia yields compared to media with amino acid mixtures containing these amino acids. When various amounts of each individual inhibitory amino acid were added to media which contained amino acid mixtures, cysteine and methionine were shown to be most effective in reducing conidiation. An optimal nitrogen source forC. truncatum conidiation in submerged culture should contain a complete mixture of amino acids with low levels of cysteine, methionine, leucine, isoleucine, lysine and tryptophan for rapid conidiation and optimal conidia yield.The mention of firm names or trade products does not imply that they are endorsed or recommended by the US Department of Agriculture over other firms or similar products not mentioned.     

Substrate specificity of <Emphasis Type="Italic">Stenotrophomonas nitritireducens</Emphasis> in the hydroxylation of unsaturated fatty acid

An isolated bacterium that converted unsaturated fatty acids to hydroxy fatty acids was identified as Stenotrophomonas nitritireducens by API analysis, cellular fatty acids compositions, sequencing the full 16S ribosomal ribonucleic acid, and evaluating its nitrite reduction ability. S. nitritireducens has unique regio-specificity for C16 and C18 cis-9 unsaturated fatty acids. These fatty acids are converted to their 10-hydroxy fatty acids without detectable byproducts. Among the cis-9-unsaturated fatty acids, S. nitritireducens showed the highest specificity for linoleic acid. The cells converted 20 mM linoleic acid to 13.5 mM 10-hydroxy-12(Z)-octadecenoic acid at 30°C and pH 7.5 with a yield of 67.5% (mol/mol).     

Multiple changes in sialic acid biology during human evolution

Humans are genetically very similar to “great apes”, (chimpanzees, bonobos, gorillas and orangutans), our closest evolutionary relatives. We have discovered multiple genetic and biochemical differences between humans and these other hominids, in relation to sialic acids and in Siglecs (Sia-recognizing Ig superfamily lectins). An inactivating mutation in the CMAH gene eliminated human expression of N-glycolylneuraminic acid (Neu5Gc) a major sialic acid in “great apes”. Additional human-specific changes have been found, affecting at least 10 of the <60 genes known to be involved in the biology of sialic acids. There are potential implications for unique features of humans, as well as for human susceptibility or resistance to disease. Additionally, metabolic incorporation of Neu5Gc from animal-derived materials occurs into biotherapeutic molecules and cellular preparations - and into human tissues from dietary sources, particularly red meat and milk products. As humans also have varying and sometime high levels of circulating anti-Neu5Gc antibodies, there are implications for biotechnology products, and for some human diseases associated with chronic inflammation.     

The Ca-activated chloride channel of Ascaris suum conducts volatile fatty acids produced by anaerobic respiration: A patch-clamp study

Plasma membrane vesicles prepared from the bag region of the somatic muscle cell of the parasite Ascaris suum contain a large conductance, voltage-sensitive, calcium-activated chloride channel. The ability of this channel to conduct a variety of carboxylic acids, a number of which are products of anaerobic respiration, was investigated using the patch-clamp technique and isolated inside-out patches of muscle membrane. The channel has a conductance of 140 pS in symmetrical 140 mm chloride. Replacement of internal chloride with various carboxylic acids (140 mm) caused large hyperpolarizing shifts in the reversal potential. Permeability ratios, relative to chloride, were calculated for each acid. The relationship between permeability ratio and ionic size is inverse and linear predicting a pore diameter of 6.55 Å. This simple relationship was not observed between ionic size and conductance. Calculation of the transition state energy required to transfer a single methyl group from aqueous phase to the binding site afforded a value that was low but favorable, indicating a cationic binding site of low field strength. As the channel is able to open fully at the resting membrane potential of Ascaris and is permeable to fatty acids produced by anaerobic respiration, the possible role of this channel in the removal of metabolic products across the muscle membrane is discussed.This work was financed by the Scientific and Engineering Research Council (S.E.R.C.). M. Valkanov was sponsored by The British Council.     

The utilization of short-chain monocarboxylic acids as carbon sources for the production of gamma-linolenic acid by Mucor strains in fed-batch culture

The Fischer-Tropsch reaction water, which contains C₂ to C₅ monocarboxylic acids, generated as a co-product of the Sasol industrial oil-from-coal process, constitutes a potential cheap carbon substrate for the production of gamma-linolenic acid (GLA) by selced Mucor species. Three strains of Mucor were each grown in an air-lift reactor operated in a fed-batch, pH-stat mode under N-limitation with a mixture of C₂ to C₅ monocarboxylic acids as both pH titrant and carbon source. The production of GLA from this substrate was evaluated. Growth typically resulted in the rapid assimilation of acetic, n-butyric and n-valeric acids. Although propionic, iso-butyric and iso-valeric acids were assimilated to varying degrees, these acids accumulated in the culture. Mucor circinelloides CBS 203.28 gave the best results in that it assimilated 36% to 100% of each acid, had a biomass yield coefficient of 0.3 (calculated on acids utilized), and contained 28% crude oil, 84% of which comprised neutral lipids with a GLA content of 14.4%, giving 33 mg GLA/g biomass. GLA accumulation coincided with a decrease in the stearic-acid content of the neutral-lipid fraction. The results were comparable with previous results obtained with acetic acid and glucose as sole carbon sources, demonstrating the feasibility of producing GLA from the above mixture of organic acids.     

Fatty acid profiles of monofloral clover beebread and pollen and proteomics of red clover (Trifolium pratense) pollen

Fatty acids were identified in monofloral beebread (BB) and bee pollen (BP) loads collected from Trifolium pratense L. A gas chromatography method was used to identify and quantify fatty acids: Thirty-five fatty acids were identified in BB and 42 in BP. A high amount of the healthy n-3 fatty acids was found. The ratio of polyunsaturated fatty acids n-3 to n-6 reached a value of 8.42 and 3.35 in the latter products. The proteomic analysis also was performed on the manually collected T. pratense pollen, and the most abundant protein groups were subjected to mass spectrometry analysis. Proteins identified in T. pratense pollen are involved in the main cellular functions (cell membrane formation, organelles traffic, and mainly metabolic processes). Because of the composition of fatty acids in BB and BP and a variety of proteins present in pollen, these products are considered to be favorable for human nutrition and health.     

Effect of chlorobenzoates on the degradation of polychlorinated biphenyls (PCB) by Pseudomonas stutzeri

Chlorobenzoic acids (CBA) are frequently dead-end products of partial aerobic biodegradation of polychlorinated biphenyls (PCB). When CBA produced from PCB accumulate in the growth medium, they can inhibit the bacterial growth and consequently, slow down PCB biodegradation. In this study, the effects of seven mono- and dichlorinated CBA on growth of Pseudomonas stutzeri on different substrates and on the PCB degradation by this strain in a liquid mineral medium were tested. 3-CBA was the strongest growth inhibitor for P. stutzeri growing on glucose, benzoate and biphenyl. It was found to inhibit heavily the elimination of some di- and trichlorinated biphenyls. In contrast, its influence on the elimination of more chlorinated congeners was much less significant.The authors are with the Department of Biochemical Technology, Faculty of Chemical Technology, Slovak Technical University, 812 37 Bratislava, Slovakia.     

Efficient production of phenylpropionic acids by an amino-group-transformation biocatalytic cascade

Phenylpropionic acids are commonly used in the synthesis of pharmaceuticals, cosmetics, and fine chemicals. However, the synthesis of phenylpropionic acids faces the challenges of high cost of substrates and a limited range of products. Here, we present an artificially designed amino-group-transformation biocatalytic process, which uses simple phenols, pyruvate, and ammonia to synthesize diverse phenylpropionic acids. This biocatalytic cascade comprises an amino-group-introduction module and three amino-group-transformation modules, and operates in a modular assembly manner. Escherichia coli catalysts coexpressing enzymes from different modules achieve whole-cell simultaneous one-pot transformations of phenols into the corresponding phenylpropionic acids including (S)-α-amino acids, α-keto acids, (R)-α-amino acids, and (R)-β-amino acids. With cofactor recycling, protein engineering, and transformation optimization, four (S)-α-amino acids, four α-keto acids, four (R)-α-amino acids, and four (R)-β-amino acids are synthesized with good conversion (68–99%) and high enantioselectivities (>98%). Therefore, the amino-group-transformation concept provides a universal and efficient tool for synthesizing diverse products.     

Metabolism of symmetrical dialkyl ethers by Acinetobacter sp. HO1-N

The growth of Acinetobacter species HO1-N on a homologous series of dialkyl ethers yielded characteristic cellular and extracellular ether fatty acids. Microbial growth on diheptyl ether resulted in the appearance of 7-n-heptoxy-1-n-heptanoic acid as a cellular fatty acid and 2-n-heptoxy-1-acetic acid as the sole extracellular fatty acid. The oxidation of dinonyl ether and didecyl ether by Acinetobacter resulted in the extracellular accumulation of 2-n-nonoxy-acetic acid and 2-n-decoxy-1-acetic acid, respectively. The 16-carbon ether fatty acid, 6-n-decoxy-1-n-hexanoic acid, was identified as a major cellular fatty acid in didecyl ether-grown cells. The extracellular ether fatty acids accumulated in an inverse relationship to the disappearance of the dialkyl ether and appeared to represent end products of metabolism. The carbon and energy required for cellular growth and metabolism resided in the terminal 5-carbons of diheptyl ether, 7-carbons of dinonyl ether and 8-carbons of didecyl ether. Glutarate, adipate, pimelate and suberate were identified from cells grown at the expense of diheptyl, dioctyl, dinonyl and didecyl ether, respectively, suggesting a role for dibasic acids as metabolic intermediates. A new and novel mechanism for the metabolism of symmetrical dialkyl ethers is suggested. Terminal methyl group oxidation of the dialkyl ether results in the formation of an alkoxy-fatty acid followed by an internal carbon-carbon scission reaction 2-carbons removed from the oxygen atom. The resulting endproducts are alkoxyacetic acid and the corresponding dibasic acid.Non-Standard Abbreviations TLC Thin Layer Chromatography - PS-DEGS · PS Diethylene glycol succinate - DHE Diheptyl ether - DOE Dioctyl ether - DNE Dionyl ether - DDE Didecyl ether     

Production of -amino acids by N-acyl- -amino acid amidohydrolase and its structure and function

-Amino acids have been widely used as synthetic materials for various compounds such as pharmaceuticals and agrochemicals. The manufacture of -amino acids by fermentation is difficult, and enzymatic methods are mainly employed. At present, the optical resolution method using N-acyl- -amino acid amidohydrolase is the most useful and convenient. In this review, the application of N-acyl- -amino acid amidohydrolase to the production of -amino acids and recent progress in the study of structure–function relationships from the standpoint of improving this enzyme for industrial application are discussed.     

Reactivity of UNCAs with Grignard reagents

Summary The reactivity of Grignard reagents with UNCAs (Urethane N-protected Carboxyanhydrides of Amino acids) is described. We observed that, depending on the method of addition of the organometallic compounds, the reaction proceeded differently: (i) when the UNCA was added to the Grignard reagent, we obtained a mixture of five different products which were all identified; and (ii) when the organometallic reagent was added to the UNCA, we also obtained a mixture of the same products but in different proportions, with the major component corresponding to the urethane N-protectedN-acyl amino acid derivative.     

Characterization of the <Emphasis Type="Italic">codY</Emphasis> gene and its influence on biofilm formation in <Emphasis Type="Italic">Bacillus </Emphasis><Emphasis Type="Italic">cereus</Emphasis>

The foodborne pathogen Bacillus cereus can form biofilms on various food contact surfaces, leading to contamination of food products. To study the mechanisms of biofilm formation by B. cereus, a Tn5401 library was generated from strain UW101C. Eight thousand mutants were screened in EPS, a low nutrient medium. One mutant (M124), with a disruption in codY, developed fourfold less biofilm than the wild-type, and its defective biofilm phenotype was rescued by complementation. Addition of 0.1% casamino acids to EPS prolonged the duration of biofilms in the wild-type but not codY mutant. When decoyinine, a GTP synthesis inhibitor, was added to EPS, biofilm formation was decreased in the wild-type but not the mutant. The codY mutant produced three times higher protease activity than the wild-type. Zymogram and SDS-PAGE data showed that production of the protease (∼130 kDa) was repressed by CodY. Addition of proteinase K to EPS decreased biofilm formation by the wild-type. Using a dpp-lacZ fusion reporter system, it was shown that that the B. cereus CodY can sense amino acids and GTP levels. These data suggest that by responding to amino acids and intracellular GTP levels CodY represses production of an unknown protease and is involved in biofilm formation.     

Fatty acid synthesis by slices from developing leaves

Fatty acid synthesis was studied in successive leaf sections from the base to the tip of developing barley (Hordeum vulgare L.), maize (Zea mays L.), rye grass (Lolium perenne L.) and wheat (Triticum aestivium L.) leaves. The basal regions of the leaves had the lowest rates of fatty acid synthesis and accumulated small amounts of very long chain fatty acids. Fatty acid synthesis was highest in the middle leaf sections in all four plants. Linolenic acid synthesis from [1-¹⁴C]acetate was highest in the distal leaf sections of rye grass. The labelling of the fatty acids of individual lipids of rye grass was examined and it was found that [¹⁴C]linolenic acid was highest in the galactolipids. Synthesis of this acid in the galactolipids was most active in leaf segment C. Only traces of [¹⁴C]linolenic acid were ever found in phosphatidylcholine and it is concluded that this phospholipid cannot serve as a substrate for linoleic acid desaturation in rye grass. The synthesis of fatty acids was sensitive to arsenite, fluoride and the herbicide EPTC. The latter was only inhibitory towards those leaf segments which made very long chain fatty acids. Formation of fatty acids from [1-¹⁴C]acetate was also studied in chloroplasts prepared from successive leaf sections of rye grass. Chloroplasts isolated from the middle leaf sections had the highest activity. Palmitic and oleic acids were the main fatty acid products in all chloroplast preparations. Linolenic acid synthesis was highest in chlorplasts isolated from the distal leaf sections of rye grass.     

Elaidic and trans-vaccenic acids in plasma phospholipids as indicators of dietary intake of 18:1 trans-fatty acids

Octadecenoic (18:1) trans-fatty acid fractions from margarine, butter and plasma phospholipids (PL) were isolated by silver ion TLC, and nine positional isomers (n-11-n-3) were identified by GC-MS based on their ozonolysis products. The GC analysis of the isolated fractions gave similar peak profiles and separated seven trans-isomers (n-11-n-6 and n-3). Without a preceding isolation step, the reproducibility of the Gc method for plasma PL elaidic (18:1 n-9 trans) and trans-vaccenic acids (n-7) was 3.4 and 2.7% (R.S.D.), respectively. These trans-isomers were rapidly incorporated and cleared in plasma PL and they closely reflected both increased and decreased intake of 18:1 trans-fatty acids during moderate fat substitutions. Significant associations between high-density lipoprotein cholesterol (HDL-C) and PL elaidic and trans-vaccenic acids appeared in habitual margarine users only.     

Derivatives of Aminoquinones with N-protected Amino Acids

Summary The synthesis of derivatives of aminoquinones with N-protected amino acids is reported here. 2-Amino-1,4-benzoquinone and 2-amino-1,4-naphthoquinone, prepared by the azide method in yields of 60 and 95% respectively, were coupled with N-Boc-protected amino acids including glycine, serine, proline and tyrosine, to give the correspondening derivatives.N, N′-Diisopropylcarbodiimide/1-hydroxybenzotriazole orN, N′-dicyclohexylcarbodiimide/HOBt used as coupling reagents provided the expected products in satisfactory yields and purities as supported by TLC, HPLC and spectral analysis.     

Polar lipid fatty acids,LPS-hydroxy fatty acids,and respiratory quinones of three <Emphasis Type="Italic">Geobacter</Emphasis> strains,and variation with electron acceptor

The polar lipid fatty acids, lipopolysaccharide hydroxy-fatty acids, and respiratory quinones of Geobacter metallireducens str. GS-15, Geobacter sulfurreducens str. PCA, and Geobacter bemidjiensis str. Bem are reported. Also, the lipids of G. metallireducens were compared when grown with Fe³⁺ or nitrate as electron acceptors and G. sulfurreducens with Fe³⁺ or fumarate. In all experiments, the most abundant polar lipid fatty acids were 14:0, i15:0, 16:1ω7c, 16:1ω5c, and 16:0; lipopolysaccharide hydroxy-fatty acids were dominated by 3oh16:0, 3oh14:0, 9oh16:0, and 10oh16:0; and menaquinone-8 was the most abundant respiratory quinone. Some variation in lipid profiles with strain were observed, but not with electron acceptor. D. C. White: Deceased.     

香蕉幼苗三类有机小分子溶质对尖孢镰刀菌侵染的生理响应

为阐明香蕉枯萎病发病机制,研究了尖孢镰刀菌侵染后,香蕉植株中几种对尖孢镰刀菌生长有显著作用的物质(氨基酸、有机羧酸、酚酸)种类和含量的变化。结果表明:(1)病原菌侵染后,伤害逐渐加剧,株高和生物量显著下降。(2)病原菌侵染后,叶片氨基酸总量显著升高,其中丝氨酸、缬氨酸、组氨酸、异亮氨酸和亮氨酸增幅较大,病原菌侵染16 d,其含量分别为侵染前的7.1、6.2、4.4、3.5和2.3倍;而根氨基酸总量开始显著降低,差异逐渐变小。(3)叶片有机羧酸酸含量在病原菌侵染后显著增加,而在根中显著降低。侵染植株叶片中草酸、柠檬酸、苹果酸、琥珀酸和延胡索酸含量分别是未侵染植株叶片的2.6、1.6、1.9、1.8和2.3倍;根中草酸、柠檬酸、苹果酸、琥珀酸和延胡索酸含量分别是未侵染植株的81%、42%、44%、28%和59%。(4)病原菌侵染后,植株叶片和根中酚酸含量都显著升高。叶片中阿魏酸、肉桂酸和水杨酸含量分别是未侵染叶片的2.9、1.7和2.9倍;而根中对羟基苯甲酸和丁香酸含量分别是未侵染根的4.3和1.5倍。研究结果表明,尖孢镰刀菌侵染后,植物与病原菌的相互作用使得植物体内抑菌物质和促菌物质都会相应的增加,植株对病害有一定的抗性,但促菌物质种类和含量较高最终使得感病植株发病。     

An Inositol-Containing Sphingolipid from the Red Alga Gracilaria verrucosa

An unusual polar lipid was isolated from the red alga Gracilaria verrucosa. Inositol, sphingosine bases, fatty acids, and phosphate were identified by GC and GC-MS analysis among the products of its acid methanolysis. On the basis of the lipid composition, chromatographic behavior, chemical properties, and mass spectra, the inositol phosphoceramide structure was proposed for this lipid. Similar lipids were previously found only in fungi and some protozoa.     

A novel Pseudomonas putida strain with high levels of hydantoin-converting activity, producing -amino acids

Optically pure chiral amino acids and their derivatives can be efficiently synthesised by the biocatalytic conversion of 5-substituted hydantoins in reactions catalysed by stereo-selective microbial enzymes: initially a hydantoinase catalyses the cleavage of the hydantoin producing an N-carbamyl amino acid. In certain bacteria where an N-carbamyl amino acid amidohydrolase (NCAAH) is present, the N-carbamyl amino acid intermediate is further converted to amino acid, ammonia and CO₂. In this study we report on a novel Pseudomonas putida strain which exhibits high levels of hydantoin-converting activity, yielding -amino acid products including alanine, valine, and norleucine, with bioconversion yields between 60% and 100%. The preferred substrates are generally aliphatic, but not necessarily short chain, 5-alkylhydantoins. In characterizing the enzymes from this microorganism, we have found that the NCAAH has -selectivity, while the hydantoinase is non-stereoselective. In addition, resting cell reactions under varying conditions showed that the hydantoinase is highly active, and is not subject to substrate inhibition, or product inhibition by ammonia. The rate-limiting reaction appears to be the NCAAH-catalysed conversion of the intermediate. Metal-dependence studies suggest that the hydantoinase is dependent on the presence of magnesium and cobalt ions, and is strongly inhibited by the presence of copper ions. The relative paucity of -selective hydantoin-hydrolysing enzyme systems, together with the high level of hydantoinase activity and the unusual substrate selectivity of this P. putida isolate, suggest that is has significant potential in industrial applications.