Ethyl esters production catalyzed by immobilized lipases is influenced by n-hexane and ter-amyl alcohol as organic solvents.

Lipase stability in organic solvent is crucial for its application in many biotechnological processes as biocatalyst. One way to improve lipase's activity and stability in unusual reaction medium is its immobilization on inert supports. Here, lipases from different sources and immobilized through weak chemical interactions on hydrophobic and ionic supports had their transesterification ability dramatically dependent on the support and also on the solvent that had been used. The ethanolysis of sardine oil was carried out at the presence of cyclohexane and tert-amyl alcohol, in which Duolite A568-Thermomyces lanuginosa lipase derivative achieved 49% of ethyl esters production after 24 h in cyclohexane. The selectivity of immobilized lipases was also studied and, after 3 h of synthesis, the reaction with Duolite A568-Thermomyces lanuginosa derivative in cyclohexane produced 24% ethyl ester of eicosapentaenoic acid and 1.2% ethyl ester of docosahexaenoic acid, displaying a selectivity index of 20 times the ethyl ester of eicosapentaenoic acid. Different derivatives of Candida antarctica lipases fraction B (CALB) and phospholipase Lecitase® Ultra (Lecitase) were also investigated. Along these lines, a combination between these factors may be applied to improve the activity and selectivity of immobilized lipases, decreasing the total cost of the process.

Methane Emissions from Offshore Oil and Gas Platforms in the Gulf of Mexico.

Shipboard measurements of offshore oil and gas facilities were conducted in the Gulf of Mexico in February 2018. Species measured at 1 s include methane, ethane, carbon-13 (13C) and deuterium (D) isotopes of methane, and several combustion tracers. Significant variability in the emission composition is observed between individual sites, with typical ethane/methane ratios around 5.3% and 13C and D methane isotopic compositions around -40 and -240‰, respectively. Offshore plumes were spatially narrower than expectations of the plume width based on terrestrial atmospheric stability classes; a modified Gaussian dispersion methodology using empirically measured horizontal plume widths was used to estimate the emission rates. A total of 103 sites were studied, including shallow and deepwater offshore platforms and drillships. Methane emission rates range from 0 to 190 kg/h with 95% confidence limits estimated at a factor of 10. The observed distribution is skewed with the top two emitters accounting for 20% of the total methane emissions of all sampled sites. Despite the greater throughput of the deepwater facilities, they had moderate emission rates compared to shallow-water sites. Analysis of background ethane enhancements also suggests a source region in shallow waters. A complete 1 s measurement database is published for use in future studies of offshore dispersion.

Short chain nitrocompounds as a treatment of layer hen manure and litter; effects on in vitro survivability of Salmonella, generic E. coli and nitrogen metabolism.

The current study was conducted to assess the bactericidal effectiveness of several nitrocompounds against pathogens in layer hen manure and litter. Evidence from an initial study indicated that treatment of layer hen manure with 12 mM nitroethane decreased populations of generic E. coli and total coliforms by 0.7 and 2.2 log10 colony forming units (CFU) g-1, respectively, after 24 h aerobic incubation at ambient temperature when compared to untreated populations. Salmonella concentrations were unaffected by nitroethane in this study. In a follow-up experiment, treatment of 6-month-old layer hen litter (mixed with 0.4 mL water g-1) with 44 mM 2-nitroethanol, 2-nitropropanol or ethyl nitroacetate decreased an inoculated Salmonella typhimurium strain from its initial concentration (3 log10 CFU g-1) by 0.7 to 1.7 log10 CFU g-1 after 6 h incubation at 37°C in covered containers. After 24 h incubation, populations of the inoculated S. Typhmiurium in litter treated with 44 mM 2-nitroethanol, 2-nitropropanol, ethyl nitroacetate or nitroethane were decreased more than 3.2 log10 CFU g-1 compared to populations in untreated control litter. Treatment of litter with 44 mM 2-nitroethanol, 2-nitropropanol, ethyl nitroacetate decreased rates of ammonia accumulation more than 70% compared to untreated controls (0.167 µmol mL-1 h-1) and loses of uric acid (< 1 µmol mL-1) were observed only in litter treated with 44 mM 2-nitropropanol, indicating that some of these nitrocompounds may help prevent loss of nitrogen in treated litter. Results warrant further research to determine if these nitrocompounds can be developed into an environmentally sustainable and safe strategy to eliminate pathogens from poultry litter, while preserving its nitrogen content as a nutritionally valuable crude protein source for ruminants.

Vibrational spectroscopy and conformation of S-ethyl thioacetate: CH3COSCH2CH3 and comparison with -C(O)S- and -C(O)O- compounds.

The molecular structure and conformational properties of S-ethyl thioacetate, CH3COSCH2CH3, were determined in the gas phase by electron diffraction and vibrational spectroscopy (IR and Raman). The experimental investigations were supplemented by ab initio (MP2) and DFT quantum chemical calculations at different levels of theory. Theoretical methods reveal two structures with Cs (anti, anti) and C1 (anti, gauche) symmetries. The infrared and Raman spectra for different phases were also recorded and the bands observed assigned to the vibrational normal modes. Liquid Raman and infrared spectra in liquid and gaseous state measurements revealed the presence of two conformations anti, anti (Cs symmetry) and anti, gauche (C1 symmetry). The study was completed using natural bond orbital (NBO) analysis. We have also analyzed the internal rotation barrier about the C(O)SCC dihedral angle using a variety of computational approaches and natural bond orbital (NBO) analyses to understand the nature of the potential function and to explain the preferred conformation of the molecule.

DFT calculations of structure and vibrational properties of 2,2,2-trichloroethylacetate, CH(3)CO(2)CH(2)CCl(3).

The molecular structure and conformational properties of 2,2,2-trichloroethylacetate, CH(3)CO(2)CH(2)CCl(3), were determined by ab initio (MP2) and DFT quantum chemical calculations at different levels of theory. The theoretical study was complemented with experimental measurements such as IR and Raman spectroscopy. The experimental and calculations confirm the presence of two conformers, one with anti, gauche conformation (C1 symmetry) and another with anti, anti form (Cs symmetry). The conformational preference was studied using the total energy scheme, NBO and AIM analysis. The infrared spectra of CH(3)CO(2)CH(2)CCl(3) are reported in the liquid and solid phases and the Raman spectrum in liquid phase. Using calculated frequencies as a guide, evidence for both C1 and Cs conformers is obtained in the IR and Raman spectra.

The rotational barrier in ethane: a molecular orbital study.

The energy change on each Occupied Molecular Orbital as a function of rotation about the C-C bond in ethane was studied using the B3LYP, mPWB95 functional and MP2 methods with different basis sets. Also, the effect of the ZPE on rotational barrier was analyzed. We have found that σ and π energies contribution stabilize a staggered conformation. The σ(s) molecular orbital stabilizes the staggered conformation while the stabilizes the eclipsed conformation and destabilize the staggered conformation. The π(z) and molecular orbitals stabilize both the eclipsed and staggered conformations, which are destabilized by the π(v) and molecular orbitals. The results show that the method of calculation has the effect of changing the behavior of the energy change in each Occupied Molecular Orbital energy as a function of the angle of rotation about the C-C bond in ethane. Finally, we found that if the molecular orbital energy contribution is deleted from the rotational energy, an inversion in conformational preference occurs.

Evaluation of the catalytic properties of Burkholderia cepacia lipase immobilized on non-commercial matrices to be used in biodiesel synthesis from different feedstocks.

The objective of this work was to produce an immobilized form of lipase from Burkholderia cepacia (lipase PS) with advantageous catalytic properties and stability to be used in the ethanolysis of different feedstocks, mainly babassu oil and tallow beef. For this purpose lipase PS was immobilized on two different non-commercial matrices, such as inorganic matrix (niobium oxide, Nb(2)O(5)) and a hybrid matrix (polysiloxane-polyvinyl alcohol, SiO(2)-PVA) by covalent binding. The properties of free and immobilized enzymes were searched and compared. The best performance regarding all the analyzed parameters (biochemical properties, kinetic constants and thermal stability) were obtained when the lipase was immobilized on SiO(2)-PVA. The superiority of this immobilized system was also confirmed in the transesterification of both feedstocks, attained higher yields and productivities.

Solvent and temperature effects on the conformational equilibria of a dihydrobenzo[h]quinolinium fluoroborate.

Spectra of the N-phenyl-5,6-dihydro-2,4-diphenylbenzo[h]quinolinium tetrafluoroborate (1) and of the N-phenyl-5,6,8,9-tetrahydro-7-phenyldibenzo[c,h]acridinium tetrafluoroborate (2) were recorded in various solvents and temperatures. The analysis of the (1)H-NMR spectra of the tetrafluoroborate salt 1, recorded in acetone, acetonitrile, 1,1,2,2-tetrachloroethane and chloroform, revealed the existence of an equilibrium between two conformers in solution. Tight ion-pairing in chloroform led to a smaller barrier for interconversion between the two conformers. In more polar solvents, where the dihydrobenzoquinolinium exists as a free cation, theoretical calculations predicted larger barriers. The spectra of 1 in 1,1,2,2-tetrachloroethane also varied with temperature, resembling at higher temperatures the spectrum in CDCl(3) and at 300K spectra in more polar media. Spectra of 2 did not vary with the solvent or the temperature, in an indication of a much higher barrier to conformational interconversion, because of a greater steric hindrance between the N-phenyl substituent and the dihydrobenzo rings.

Is there a general rule for the gauche effect in the conformational isomerism of 1,2-disubstituted ethanes?

The stabilities of the gauche and anti conformations of butane, 1,2-dicyanoethane (DCE), and 1,2-dinitroethane (DNE) have been investigated through theoretical calculations. The gauche effect-the tendency of keeping close vicinal electronegative substituents (thetaX-C-C-X approximately 60 degrees ) in an ethane fragment-is expected to drive the conformational equilibrium of DCE and DNE toward the gauche conformation. It was found that, for butane, where the gauche effect is supposed to be poor/null, the hyperconjugation effect contributes mostly to the anti stabilization in opposition to the traditional sense that the methyl groups repel each other, and this should govern its conformational equilibrium. For DCE the equilibrium was shifted to the anti conformer, essentially due to a gauche repulsion, while for DNE, despite the higher electronic delocalization energies, a predominance of the gauche conformer was obtained, and this was attributed mainly to the attractive dipolar interaction between the two nitro groups. A full orbital energy analysis was performed using the natural bond orbital approach, which showed that bond bending and anti-C-H/C-X* hyperconjugation models, usually applied to explain the origin of the gauche effect in fluorinated derivatives, are not adequate to completely explain the conformational behavior of the titled compounds.

Açäo larvicida de extrato bruto etanólico de Magonia pubescens St.Hil. (tingui-do-cerrado), sobre o Aedes aegypti(Lin.) em laboratório / Larvicid action crude ethanol extract of Magonia pubescens St.Hil.(tingui-do-cerrado), on the Aedes aegypti(Lin.), dengue's main vector

Realizaram-se testes biológicos com extrato bruto etanólico (e.b.e.) de Magonia pubescens St. Hill., (tingui-do-cerrado)(Sapindaceae) para verificar a açäo larvicida sobre o Aedes aegypti(Lin.). Os extratos foram obtidos a partir de cada parte da planta: casca do caule, envoltório da semente e semente. Após ter sido coletado, o material foi dessecado em estufa de ar forçado a 40§C, moído, percolado em etanol por 10 dias, filtrado em papel filtro qualitativo, concentrado em evaporador rotativo e dessecado em pistola à vácuo. Após a obtençäo do e.b.e. de cada parte da planta, este foi dissolvido em água, em diferentes concentraçöes e testados com larvas de 4§ estádio de A.aegypti para determinar a DL50, que foi de 35, 55 e 150mg do e.b.e./100ml de água destilada, respectivamente, para semente, envoltório da semente e casca do caule. Cada experimento foi realizado com 20 frascos descartáveis, com capacidade para 30ml, com uma larva em cada um deles e observados por 24 horas. As larvas foram criadas em câmara biológica climatizada a 28ñ1§c, umidade relativa de 80ñ5(pôr cento) e fotofase de 12 horas. Os testes biológicos com os e.b.e. foram realizados em outra câmara, climatizada similarmente. Entre os experimentos realizados, os e.b.e. da semente e seu envoltório, mostraram-se mais eficientes larvicidas do que os e.b.e. da casca do caule

Rebound severe methemoglobinemia from ingestion of a nitroethane artificial-fingernail remover.

We describe life-threatening methemoglobinemia in a child who ingested a nitroethane artificial-fingernail remover initially mistaken to be an acetone-based polish remover. Nitroethane-induced methemoglobinemia may be delayed and recurrent; patients ingesting this substance may warrant close observation for at least 24 hours. Care givers are cautioned to determine the precise substance involved in ingestions of potentially toxic fingernail products.

Structure of the 'corallinans'--sulfated xylogalactans from Corallina officinalis.

The structure of the main polysaccharides extracted from the red seaweed Corallina officinalis was characterized by methylation, desulfation-methylation, and ethylation analysis. The backbone has an alternating-->4)-alpha-L-Gal-(1-->3)-beta-D-Gal-(1-->structure. The C6 position of 3-linked units is substituted mainly by beta-D-xylosyl side stubs but also by sulfate ester groups and minor amounts of 4-O-methylgalactosyl side stubs. Positions C2 and C3 of 4-linked units also carry sulfate or methoxyl as substituents, but never both together in the same unit. Minor fractions modulate this structure with other irregularities, such as higher branching or, possibly, unusual (1-->2) or (1-->6) linkages.

Correlation of free oxygen radical-induced lipid peroxidation with outcome in very low birth weight infants.

Lipid peroxidation was measured in 19 very low birth weight infants with respiratory distress syndrome by quantitating ethane and pentane in expired air during the first 5 days postnatally. Despite high levels of inspiratory oxygen, the ethane and pentane output was low within the first 24 hours; thereafter it increased up to 100 and 30 fold, respectively. On days 1 to 3 there was no detectable correlation between lipid peroxidation and fractional inspiratory oxygen. However, on days 4 and 5, lipid peroxidation and fractional inspiratory oxygen showed a significant correlation. Maximal amounts of expired ethane and pentane were significantly higher for patients with a poor outcome (five deaths, six cases of bronchopulmonary dysplasia) than for those with good outcome (eight infants surviving intact) (p less than 0.01). The results imply a role for free oxygen radicals in the pathogenesis of life-threatening complications in the very low birth weight infant.