n-Dodecane as a substrate for nitrogen fixation by an alkane-utilizingAzospirillum sp.

Azospirillum sp. ANK-BI-11 was isolated from petroliferous soil. Glucose, nutrient broth, and sugar acids showed better growth thann-alkanes under aerobic conditions. The utilization of glucose was inhibited in the presence ofn-hexane. Microaerobically, succinic acid, pyruvic acid, and lactic acid were the best C-sources for acetylene reduction, whereas glucose was the best source for growth.n-Dodecane, a nonconventional C-source, also showed good response towards acetylene reduction, although growth was not so pronounced here as with glucose but was equal to that of Na-succinate. Optimum pH and temperature for acetylene reduction were between 7.0 and 8.0 and 30°C, respectively. Scanning electron microscopic studies revealed structural alteration in the shapes and sizes of the cells ofAzospirillum sp. when grown onn-hexane andn-dodecane compared with the cells grown on glucose.     

Headspace solid-phase microextraction and gas chromatographic–mass spectrometric screening for volatile hydrocarbons in blood

Optimization for headspace solid-phase microextraction (SPME) was studied with a view to performing gas chromatographic–mass spectrometric (GC–MS) screening of volatile hydrocarbons (VHCs) in blood. Twenty hydrocarbons comprising aliphatic hydrocarbons ranging from n-hexane to n-tridecane, and aromatic hydrocarbons ranging from benzene to trimethylbenzenes were used in this study. This method can be used for examining a burned body to ascertain whether the victim had been alive or not when the burning incident took place. n-Hexane, n-heptane and benzene, the main indicators of gasoline components, were found as detectable peaks through the use of cryogenic oven trapping upon SPME injection into a GC–MS instrument. The optimal screening procedure was performed as follows. The analytes in the headspace of 0.2 g of blood mixed with 0.8 ml of water plus 0.2 μg of toluene-d₈ at −5°C were adsorbed to a 100-μm polydimethylsiloxane (PDMS) fiber for 30 min, and measured using the full-mass-scanning GC–MS method. The lower detection limits of all the compounds were 0.01 μg per 1 g of blood. Linearities (r²) within the range 0.01 to 4 μg per 1 g of blood were only obtained for the aromatic hydrocarbons at between 0.9638 (pseudocumene) and 0.9994 (toluene), but not for aliphatic hydrocarbons at between 0.9392 (n-tridecane) and 0.9935 (n-hexane). The coefficients of variation at 0.2 μg/g were less than 8.6% (n-undecane). In conclusion, this method is feasible for the screening of volatile hydrocarbons from blood in forensic medicine.     

Identification of linoleic acid,a main component of the n-hexane fraction from Dryopteris crassirhizoma,as an anti-Streptococcus mutans biofilm agent

Dryopteris crassirhizoma is a semi-evergreen plant. Previous studies have shown the potential of this plant as an agent for the control of cariogenic biofilms. In this study, the main antibacterial components of the plant were identified by correlating gas chromatography–mass spectrometry data with the antibacterial activity of chloroform and n-hexane fractions and then evaluating the activity of the most potent antibacterial component against Streptococcus mutans UA159 biofilms. The most potent antibacterial component was linoleic acid, a main component of the n-hexane fraction. Linoleic acid reduced viability in a dose dependent manner and reduced biofilm accumulation during initial and mature biofilm formation. Furthermore, when the biofilms were briefly treated with linoleic acid (10?min/treatment, a total of six times), the dry weight of the biofilms was significantly diminished. In addition, the anti-biofilm activity of the n-hexane fraction was similar to that of linoleic acid. These results suggest that the n-hexane fraction of D. crassirhizoma and linoleic acid may be useful for controlling cariogenic biofilms.     

Action of Poly-l-malic Acid on Various Proteolytic Enzymes

The steam volatile neutral fraction of tobacco smoke condensates was separated into n-hexane, nitromethane and 1:4 water-methanol soluble fractions by solvent partition.

2.methyl-4-hydroxy-2-hexenoic acid lactone, dihydroactinidiolide and phthalide were isolated from the 1:4 water-methanol soluble fraction, the highly polar portion of the steam volatile neutral fraction was designated as the M fraction.

By continuing analysis of the M fraction from a previous paper, benzyl alcohol, phenyl-ethyl alcohol, pyrrole-2-aldehyde, α-pyrrylmethylketone, α-pyrrylethylketone, α-carbomethoxypyrrole, pyrrole-2-carbonitrile, methyl-pyrrole-2-carbonitrile, 3-methyl-, 3-ethyl-, 3-n-propyl-, 2,3-dimethyl-, 2-ethyl-3-methyl-2-cyclopentene-1-one and norsolanadione were identified.

Identification of the compounds was based on the spectroscopic method (IR, MS, UV and GC-MS) and gas chromatographic analysis.     

Separation of neutral lipids by high-performance liquid chromatography: quantification by ultraviolet,light scattering and fluorescence detection

The recent increased use of cell cultures to model physiological events, in particular signal transduction and traumatic injury, has produced a need for a quantitative, high-performance liquid chromatographic separation of neutral lipid classes with a high degree of resolution and reproducibility. We report an isocratic separation using a Phenomenex Selectosil silica column (5 μm). Two solvents were used, 1.2% 2-propanol in n-hexane containing 0.1% acetic acid (90%) and n-hexane (10%) at a flow-rate of 0.6 ml/min. Column temperature was maintained at 55°C and this temperature was critical for baseline resolution of 1,3-diacylglycerol and cholesterol. The use of 10% n-hexane permitted the resolution of low polarity compounds such as butylated hydroxytoluene, triacylglycerols and cholesteryl esters. All of the detectors used produced standard curves with linearity over a wide concentration range.     

Stability performance ofCynara cardunculus L. acid protease in aqueous-organic biphasic systems

Stability performance of the acid protease ofCynara cardunculus L. in biphasic systems containing ethyl acetate,n-hexane or isooctane was investigated and compared with that of pepsin. Activity retention was higher in the system containingn-hexane. In this system 100% retention was observed up to 144 hours. Pre-saturation of phases was found to increase enzyme stability in the cases ofn-hexane and isooctane and to be an absolute requirement in the case of ethyl acetate. The results obtained suggest also that, when dealing with pre-saturated phases, log P cannot be used straightforwardly to predict enzyme stability in biphasic systems.     

Acidolysis between Triolein and Short-Chain Fatty Acid by Lipase in Organic Solvents

Ten kinds of lipases were examined as biocatalysts for the incorporation of short-chain fatty acids (acetic, propionic, and butyric acids) into triolein in order to produce one kind of reduced-calorie structured lipids. Trans-esterification (acidolysis) was successfully done in n-hexane by several microbial lipases. Among them, lipase from Aspergillus oryzae was used to investigate the effects of incubation time, substrate molar ratio, and water content on acidolysis. Finally, more than 80% of triolein was incorporated by butyric acid (molar ratio of triolein to butyric acid, 1:10) in the dried n-hexane at 52 °C for 72 h. More than 90% of the products was monosubstituent, which was esterified with this short chain fatty acid at the 1-position of the glycerol moiety of triolein. These results suggest that A. oryzae lipase would be a powerful biocatalyst for the synthesis of low caloric oil, such as triacylglycerol containing a mixture of long- and short-chain aliphatic acids.     

Phase partition of gaseous hexane and surface hydrophobicity of Fusarium solani when grown in liquid and solid media with hexanol and hexane

The filamentous fungus, Fusarium solani, was grown in liquid and solid culture with glucose, glycerol, 1-hexanol and n-hexane. The partition coefficient with gaseous hexane (HPC) in the biomass was lower when grown in liquid medium with 1-hexanol (0.4) than with glycerol (0.8) or glucose (1) The HPC for surface growth were 0.2 for 1-hexanol, 0.5 for glycerol, 0.6 for glucose, and 0.2 for F. solani biomass obtained from a biofilter fed with gaseous n-hexane. These values show a 200-fold increase in n-hexane solubility when compared to water (HPC = 42). Lower HPC values can be partially explained by increased lipid accumulation with 1-hexanol, 10.5% (w/w) than with glycerol (8.5% w/w) or glucose (7.1% w/w). The diameter of the hyphae diminished from 3 μm to 2 μm when F. solani was grown on solid media with gaseous n-hexane thereby doubling the surface area for gaseous substrate exchange. The surface hydrophobicity of the mycelia increased consistently with more hydrophobic substrates and the contact angle of a drop of water on the mycelial mat was 113° when grown on n-hexane as compared to 75° with glucose. The fungus thus adapts to hydrophobic conditions and these changes may explain the higher uptake of gaseous hydrophobic substances by fungi in biofilters.     

The Role of Metabolism in Establishing Chemical-Specific Adjustment Factors for n-Hexane and Methyl n-Butyl Ketone

This paper focuses on the derivation of chemical-specific adjustment factors (CSAFs) for two neurotoxic solvents, n-hexane and methyl n-butyl ketone (MBK). Workers are exposed to the chemicals mainly via inhalation when they are used, for example, as solvents in adhesives. In order to derive CSAFs for n-hexane and MBK, research data were used from animal studies conducted in our laboratory. Also, MEDLINE and TOXLINE databases were searched for references containing animal and human toxicokinetic and toxicodynamic data. International Programme on Chemical Safety (IPCS) guidelines were followed. From the available data, the composite factor (CF) for n-hexane was calculated to be 18.2. Because n-hexane and MBK are most often used in combination with other solvents, e.g., methyl ethyl ketone (MEK), the metabolic induction of the toxicity of n-hexane or MBK by MEK should be considered in the derivation of CSAFs. However, in the presence of MEK the calculated CF for both n-hexane and MBK is 13. As more human data become available, the CFs for the mixtures may be reduced compared to the individual chemicals.     

Efficient release of ferulic acid from sweet potato (<Emphasis Type="Italic">Ipomoea batatas</Emphasis>) stems by chemical hydrolysis

An efficient method for release of ferulic acid from sweet potato stems was developed. Ferulic acid along with phenolic compounds were released from stems by acid and alkaline treatments. The base hydrolysis with 0.1 N NaOH yielded the highest quantity of total extracts (471.1 mg/g). The stems released more phenolic compounds when 0.0125∼0.025 N NaOH was employed. Where as ferulic acid release was maximal with 0.05 N H₂SO₄ (0.32 mg/g). Ferulic acid was separated from phenolics by column chromatography. Among the elution solvents, ethyl acetate fractions (80%) contained ferulic acid. Ethyl acetate eluants were further fractionated with n-hexane/ethyl acetate/formic acid (100/50/0.5, v/v/v). All fractions showed ferulic acid and phenolic compounds. Fraction V among them was ascribed to ferulic acid with an yield of 5.41 mg/g of dry sweet potato tissue.     

Studies of reaction parameters on synthesis of Citronellyl laurate ester via immobilized Candida rugosa lipase in organic media

Immobilized Candida rugosa lipase was used for the synthesis of citronellyl laurate from citronellol and lauric acid. Screening of different types of support (Amberlite MB-1 and Celite) for immobilization of lipase and solvent (n-hexane, n-heptane, and iso-octane) and optimization of reaction conditions, such as catalyst loading, effect of substrates molar ratio and temperature, have been studied. The maximum enzyme activity was obtained at 310 K. The immobilized C. rugosa lipase onto Amberlite MB-1 support was found to be the best support with a conversion of 89% of citronellyl laurate ester in iso-octane compared to Celite 545. Deactivation of C. rugosa lipase at 313, 318 and 323 K were observed. Ordered bi bi mechanism with dead end complex of lauric acid was found to fit the initial rate data and the kinetic parameters were obtained by non-linear regression analysis.     

Exploring non-host plant-based management strategy with lemongrass,garlic and guava volatiles for the African citrus triozid

The African citrus triozid (ACT), Trioza erytreae, is an important pest of citrus. Both nymphs and adults damage the plant by feeding on the sap causing young shoots to die. Trioza erytreae also vectors Candidatus Liberibacter africanus, the bacteria that cause citrus greening disease. Since certain non-host plants are known to repel insect pests, it is important to investigate how such plants can be exploited to manage T. erytreae. Here, we screened effects of odours of three non-host plants namely guava (Psidium guajava), garlic (Allium sativum) and lemongrass (Cymbopogon citratus) against T. erytreae's location of a common host plant, rough lemon (Citrus jambhiri) and showed that repellence varied interspecifically with the plants. Using cage assays, we found that guava and garlic decreased the attraction of females but not males of T. erytreae to rough lemon volatiles. Chemical analysis by coupled gas chromatography/mass spectrometry (GC/MS) showed that volatiles of three of the plants were dominated by terpenoids; guava (69% comprised of limonene, 34%, (E)-β-ocimene, 29% and (Z)-β-Ocimene, 6%), lemongrass (56% comprised of geranial, 26%, neral, 19% and myrcene, 11%) and rough lemon (74% comprised of limonene, 53%, sabinene, 11% and (E)-β-ocimene, 10%). On the other hand, the volatile profile of garlic was dominated by benzenoids and saturated compounds (85% comprised of benzaldehyde, 12%, benzyl alcohol, 17%, nonanal, 31%, decanal, 13% and hexadecane, 12%). Our results suggest that non-host plant volatile composition and richness in specific compounds may contribute to influencing T. erytreae response to its host, with garlic and guava as potential non-host plants that can be exploited in the management of the pest.     

Conformation of Peracetylated Cyclodextrins

Typical brassinosteroid activity was found in the alkaline hydrolysate of the n-hexane fraction of lily pollen. Two acyl conjugates of teasterone were purified from the n-hexane fraction by HPLC and analyzed by GC-MS and/or LC-MS, resulting in the identification of teasterone esters with lauric acid and myristic acid. Syntheses of the teasterone esters are also reported. The acyl conjugates of typhasterol, castasterone, and brassinolide did not occur in lily pollen. This is the first time that acyl conjugates have ever been discovered among naturally occurring brassinosteroids.     

Microbial desulfurization of dibenzothiophene in the presence of hydrocarbon

The bacterium, Rhodococcus erythropolis H-2, which can utilize dibenzothiophene (DBT) as a sole source of sulfur in the presence of hydrocarbon, was isolated from soil samples. When this strain was cultivated in a medium containing 0.27 mM DBT and 40% n-tetradecane, DBT was metabolized stoichiometrically to 2-hydroxybiphenyl within 1 day. This strain grew in the presence of n-octane and longer-carbonchain hydrocarbons, but not with n-hexane, styrene, p-xylene, cyclooctane or toluene. DBT degradation proceeded in the resting cell system with lyophilized cells of this strain. The addition of n-tetradecane enhanced the reaction rate, the optimal concentration being 40%. DBT degradation occurred in the reaction mixture even in the presence of 70% n-tetradecane, whereas at concentrations above 80% n-tetradecane suppressed the degradation.     

Cytogenetic analysis of buccal cells from shoeworkers and pathology and anatomy laboratory workers exposed to n-hexane,toluene, methyl ethyl ketone and formaldehyde

People employed in the shoe manufacture and repair industry are at an increased risk for cancer, the strongest evidence being for nasal cancer and leukaemia. A possible causal role for formaldehyde is likely for cancer of the buccal cavity and nasopharynx. Exfoliated buccal cells are good source of tissue for monitoring human exposure to inhaled and ingested occupational and environmental genotoxicants. To assess the cytogenetic damage related to occupational exposure to airborne chemicals during shoe-making and the processes in pathology and anatomy laboratories, the micronuclei (MN) count per 3000 cells was measured in buccal smears from shoe-workers (group I, n = 22) exposed to mainly n-hexane, toluene and methyl ethyl ketone (MEK) and from anatomy and pathology staff (group II, n = 28) exposed to formaldehyde (FA). Eighteen male university staff were used as controls. The mean time-weighted average (TWA) concentrations of n-hexane, toluene and MEK in 10 small shoe workshops were 58.07 p.p.m., 26.62 p.p.m. and 11.39 p.p.m., respectively. The measured air concentrations of FA in the breathing zone of the anatomy and pathology laboratory workers were between 2 and 4 p.p.m. Levels of 2,5-hexadione (2,5-HD) and hippuric acid (HA), metabolic markers of n-hexane and toluene exposure, respectively, were significantly higher in the urine of workers in group I than in control subjects (p < 0.001 and p < 0.01, respectively). The mean (±SD) MN frequencies in buccal mucosa cells from workers in group I, group II and controls were 0.62±0.45%, 0.71±0.56% and 0.33±0.30%, respectively (p < 0.05 and p < 0.05 compared with controls for group I and group II, respectively). The effects of smoking, age and duration of exposure on the frequency of micronucleated buccal cells from workers in all three groups studied were also evaluated. Overall, the results suggest that occupational exposure to organic solvents, mainly n-hexane, toluene, MEK and FA, may cause cytogenetic damage in buccal cells and that use of exfoliated buccal cells seems to be appropriate to measure exposure to organic solvents.     

Microbial Oxidation of Tetradecanols and Related Substances in Organic Solvents

Microbial oxidations of n-tetradecane, tetradecanols and tetradecanoic acid were investigated by using intact cells of Corynebacterium equi, a hydrocarbon-assimilating bacterium, in an aqueous phase and organic solvents. The bacterial cells were hydrophobic and could be well dispersed in all organic solvents employed to give homogeneous reaction mixtures, and among them, isooctane was found to be the best for the reaction. n-Tetradecane and tetradecanoic acid were completely oxidized in the aqueous phase, but not in isooctane. In contrast, 1-tetradecanol was oxidized much more readily in isooctane than in the aqueous phase, and an oxidation product identified as myristyl myristate was accumulated in isooctane at the conversion rate of 80%. 2-Tetradecanol was also readily oxidized in isooctane, and 2-tetradecanone was obtained at the conversion rate of nearly 100%. Similar results were obtained when toluene and n-hexane were used as the solvent in place of isooctane, while no reaction was observed when chloroform was employed.     

Unusual wax esters and glycolipids: Biocatalytical formation and physico-chemical characterization

By aid of lipases, e.g. of Mucor michei, in n-hexane wax esters were produced from usual primary fatty alcohols and unusual hydroxy fatty acids (in part of microbial origin). Thus, (S)-17-hydroxyoctadecanoic acid dodecyl ester and (R)-3-hydroxy decanoic acid dodecyl ester were formed. In measurements of the film pressure using a LANGMUIR film balance the monolayers of both compounds indicated good stability compared to the non-hydroxy wax esters. Glycolipids de novo produced by microorganisms did not show suitable wetting properties, but they were able to lower ze surface tension of water to a higher extent than the unusual waxes.     

Mobile phase compositions for ceramide III by normal phase high performance liquid chromatography

Ceramide III was prepared by the cultivation ofSaccharomyces cerevisiae. Ceramide III was partitioned from the cell extracts by solvent extraction and analyzed by Normal Phase High Performance Liquid Chromatography (NP-HPLC) using Evaporative Light Scattering Detector (ELSD). We experimentally determined the mobile phase composition to separate ceramide III with NP-HPLC. Three binary mobile phases of n-hexane/ethanol,n-hexane/Isoprophyl Alcohol (IPA) andn-hexane/n-butanol and one ternary mobile phase ofn-hexane/IPA/methanol were demonstrated. For the binary mobile phase ofn-hexane/ethanol, the first mobile phase composition, 95/5 (v/v), was step-increased to 72/23 (v/v) at 3 min. In the binary mobile phase, the retention time of ceramide III was 7.87 min, while it was 4.11 min respectively in the ternary system, where the mobile phase composition ofn-hexane/IPA/methanol, 85/7/8 (v/v/v), was step-increased to 75/10/15 (v/v/v) at 3 min. However, in the ternary mobile phase, the more peak area of ceramide III was observed.     

The importance of leaf surface wax as short-range attractant and oviposition stimulant in a generalist Lepidoptera

Green gram, Vigna radiata (L.) Wilczek, is an important pulse crop of Asia. Severe attack by the larvae of Spilosoma obliqua Walker (Lepidoptera: Arctiidae) causes defoliation of green gram and reduces seed yield. Females lay eggs on the leaf surface, and therefore, surface wax plays an important role as short-range attractant and oviposition stimulant. So, we have attempted to find out whether leaf surface wax compounds (alkanes and free fatty acids) from three green gram cultivars (PDM 54, PUSA BAISAKHI and SAMRAT) could act as short-range attractant and oviposition stimulant in females. The TLC, GC-MS and GC-FID analyses of n-hexane extracts revealed 20 n-alkanes from n-C₁₅ to n-C₃₆ and 13 free fatty acids from C12:0 to C21:0, whilst linoleic acid was unique in SAMRAT. Pentacosane was the predominant amongst n-alkanes in the leaf surface waxes of three cultivars. Heneicosanoic acid and palmitoleic acid were the predominant free fatty acids in the leaf surface waxes of PDM 54, and PUSA BAISAKHI and SAMRAT, respectively. Females were attracted towards one leaf equivalent surface wax of three green gram cultivars against solvent controls (n-hexane) in Y-tube olfactometer bioassays. A synthetic blend of pentacosane, heptacosane, nonacosane, hexatriacontane, palmitoleic acid, linolenic acid and stearic acid, a synthetic blend of pentacosane, hexatriacontane and stearic acid, and a synthetic blend of hexatriacontane, linolenic acid and stearic acid resembling in amounts present in one leaf equivalent surface wax of PDM 54, PUSA BAISAKHI and SAMRAT, respectively, served as short-range attractant and oviposition stimulant in females. Females showed equal preference for egg laying towards the above three synthetic blends when these blends were tested against each other, and hence, these blends could be employed in development of baited traps in pest management strategies.     

Influence of Position and Size of Substituents on the Mechanism of Partitioning: A Thermodynamic Study on Acetaminophens,Hydroxybenzoic Acids,and Parabens

The objective of the present investigation was to study the influence of size, nature, and topology of substituents on the thermodynamic characteristics of sublimation, fusion, solubility, solvation, and partitioning processes of some drug and druglike molecules. Thermodynamic functions of sublimation process 2-acetaminophen and 3-acetaminophen were obtained on the basis of temperature dependencies of vapor pressure by the transpiration method. Thermodynamic characteristics of solubility processes in water, n-octanol, and n-hexane were calculated from the temperature dependencies of solubility using the solubility saturation method. For evaluation of fusion parameters, differential scanning calorimetry was used. A new approach to distinguishing specific and nonspecific energetic terms in the crystal lattice was developed. Specific and nonspecific solvation terms were distinguished using the transfer from the “inert” n-hexane to the other solvents. For the acetaminophen compounds and for some related drug molecules, the correlation between melting points and a parameter describing the ratio between specific and nonspecific interaction in the crystal lattices was obtained. A diagram enabling analysis of the mechanism of the partitioning process was applied. It was found that for isomers of benzoic acids and for acetaminophens, the position of substituents affects the mechanism of the partitioning process but not the extent of partitioning ( values). In contrast to this, an increased size of substituents (parabens) leads to essential changes in values, but the mechanism of the partitioning process stays the same.