Monte Carlo simulation of the grafting of maleic anhydride onto polypropylene at higher temperature

The graft of maleic anhydride (MAH) onto isotactic polypropylene (iPP) initiated by dicumyl peroxide (DCP) at 190 degreesC was studied by means of the Monte Carlo method. The ceiling temperature theory, i.e., no possibility for the homopolymerization of MA-H to occur at higher temperatures, was used in this study. The simulation results show that most MAH monomers were grafted onto the radical chain ends arising from beta scission at a lower MAH concentration, whereas the amount of MAH monomers attached to the tertiary carbons was much larger than that grafted onto the radical chain ends at a higher MAH concentration for various DCP concentrations. This conclusion gives a good interpretation for the disagreement on the grafting sites along a PP chain. Moreover, it was found that the grafting degree increased considerably up to a peak value; thereafter, it decreased continuously with increasing MA-H concentration. The peak shifted in the lower MAH concentration direction and became lower and lower with increasing DCP concentration. When the DCP concentration was below 0.1 wt %, the peak was hardly observed. Those results are in good agreement with the experiments.

Organic phase enzyme electrodes based on organohydrogel

A dimethylformamide-polyhydroxyl cellulose organo-hydrogel has been prepared, and its applications for enzyme immobilization in construction of organic phase biosensors have been exploited. With horseradish peroxidase, tyrosinase, and bilirubin oxidase immobilized in the organohydrogel, enzyme electrodes can be operated in various situations, including aqueous buffer, oil/water mixtures, and anhydrous organic solvents, and even in dimethylformamide, to determine analytes of different solubilities, e.g., organic peroxides, phenolic compounds and bilirubin. Biosensing has no restrictions in terms of measuring media and solubilities of analytes.

Preparation and characterization of ethylene-propylene copolymer grafted with acrylamido tertiary butyl sulfonic acid

Grafting of acrylamido tertiary butyl sulfonic acid (ATBS) onto ethylene-polypropylene copolymer (EPM) was carried out by using a reactive processing method. The grafting copolymer was characterized by means of WAXD, FT-IR, ESCA, and DSC. Improved thermal stability was observed for graft copolymer. Effects of the monomer and the initiator concentrations, reactive temperature, and time on grafting degree were investigated. (C) 1997 John Wiley & Sons, Inc.

Analysis of the expression and antioxidative property of a peroxiredoxin 6 from Scophthalmus maximus

Peroxiredoxins (Prxs) are a group of antioxidant proteins that protect cells from oxidative damage caused by various peroxides. To date, six different isoforms of peroxiredoxin (Prx1 to Prx6) have been identified, of which, Prx6 belongs to the 1-Cys Prx subfamily. Although Prx6 of several fish species have been reported at sequence level, there are very few documented studies on the potential function of fish Prx6. In this report, we describe the identification and analysis of a Prx6 homologue, SmPrx6, from turbot Scophthalmus maximus. The full length cDNA of SmPrx6 contains a 5'- untranslated region (UTR) of 60 bp, an open reading frame of 666 bp, and a 3'-UTR of 244 bp. The deduced amino acid sequence of SmPrx6 shares 81-87% overall identities with known fish Prx6. In silico analysis identified in SmPrx6 a conserved Prx6 catalytic motif, PVCTTE, and the catalytic triads putatively involved in peroxidase and phospholipase A2 activities. Expression of SmPrx6 was detected in most fish organs, with the highest expression levels found in blood and heart and the lowest level in spleen. Experimental challenges with bacterial pathogens and poly(I:C) upregulated SmPrx6 expression in liver and spleen in a manner that is dependent on the challenging agent and the tissue type. Treatment of cultured primary hepatocytes with H2O2 enhanced SmPrx6 expression in a dose-dependent manner. Recombinant SmPrx6 expressed in and purified from Escherichia coli exhibited thiol-dependent antioxidant activity and could protect cultured hepatocytes from H2O2-induced oxidative damage. Taken together, these results indicate that SmPrx6 is a Prx6 homologue with antioxidative property and is likely to be involved in both cellular maintenance and protective response during host immune defense against bacterial infection. (C) 2010 Elsevier Ltd. All rights reserved.

The electrochemical oxidation and reduction of nitrate ions in the room temperature ionic liquid [C(2)mim][NTf2]; the latter behaves as a 'melt' rather than an 'organic solvent'

The electrochemical oxidation of 1-butyl-3-methylimidazolium nitrate [C(4)mim][NO3] was studied by cyclic voltammetry in the room temperature ionic liquid (RTIL) 1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl) imide [C(2)mim][NTf2]. A sharp peak was observed on a Pt microelectrode (d = 10 mu m), and a diffusion coefficient at infinite dilution of ca. 2.0 x 10(-11) m(2) s(-1) was obtained. Next, the cyclic voltammetry of sodium nitrate (NaNO3) and potassium nitrate (KNO3) was studied, by dissolving small amounts of solid into the RTIL [ C2mim][ NTf2]. Similar oxidation peaks were observed, revealing diffusion coefficients of ca. 8.8 and 9.0 x 10(-12) m(2) s(-1) and solubilities of 11.9 and 10.8 mM for NaNO3 and KNO3, respectively. The smaller diffusion coefficients for NaNO3 and KNO3 (compared to [C(4)mim][NO3]) may indicate that NO3- is ion-paired with Na+ or K+. This work may have applications in the electroanalytical determination of nitrate in RTIL solutions. Furthermore, a reduction feature was observed for both NaNO3 and KNO3, with additional anodic peaks indicating the formation of oxides, peroxides, superoxides and nitrites. This behaviour is surprisingly similar to that obtained from melts of NaNO3 and KNO3 at high temperatures ( ca. 350 - 500 degrees C), and this observation could significantly simplify experimental conditions required to investigate these compounds. We then used X-ray photoelectron spectroscopy (XPS) to suggest that disodium( I) oxide (Na2O), which has found use as a storage compound for hydrogen, was deposited on a Pt electrode surface following the reduction of NaNO3.

Increased methionine sulfoxide content of apoA-I in type 1 diabetes

Cardiovascular disease is a major cause of morbidity and premature mortality in diabetes. HDL plays an important role in limiting vascular damage by removing cholesterol and cholesteryl ester hydroperoxides from oxidized low density lipoprotein and foam cells. Methionine (Met) residues in apolipoprotein A-I (apoA-I), the major apolipoprotein of HDL, reduce peroxides in HDL lipids, forming methionine sulfoxide [Met(O)]. We examined the extent and sites of Met(O) formation in apoA-I of HDL isolated from plasma of healthy control and type 1 diabetic subjects to assess apoA-I exposure to lipid peroxides and the status of oxidative stress in the vascular compartment in diabetes. Three tryptic peptides of apoA-I contain Met residues: Q(84)-M(86)-K(88), W(108)-M(112)-R(116), and L(144)-M(148)-R(149). These peptides and their Met(O) analogs were identified and quantified by mass spectrometry. Relative to controls, Met(O) formation was significantly increased at all three locations (Met(86), Met(112), and Met(148)) in diabetic patients. The increase in Met(O) in the diabetic group did not correlate with other biomarkers of oxidative stress, such as N(epsilon)-malondialdehyde-lysine or N(epsilon)-(carboxymethyl)lysine, in plasma or lipoproteins. The higher Met(O) content in apoA-I from diabetic patients is consistent with increased levels of lipid peroxidation products in plasma in diabetes. Using the methods developed here, future studies can address the relationship between Met(O) in apoA-I and the risk, development, or progression of the vascular complications of diabetes.

The advanced glycation end product, Nepsilon-(carboxymethyl)lysine, is a product of both lipid peroxidation and glycoxidation reactions

Nepsilon-(Carboxymethyl)lysine (CML) is an advanced glycation end product formed on protein by combined nonenzymatic glycation and oxidation (glycoxidation) reactions. We now report that CML is also formed during metal-catalyzed oxidation of polyunsaturated fatty acids in the presence of protein. During copper-catalyzed oxidation in vitro, the CML content of low density lipoprotein increased in concert with conjugated dienes but was independent of the presence of the Amadori compound, fructoselysine, on the protein. CML was also formed in a time-dependent manner in RNase incubated under aerobic conditions in phosphate buffer containing arachidonate or linoleate; only trace amounts of CML were formed from oleate. After 6 days of incubation the yield of CML in RNase from arachidonate was approximately 0.7 mmol/mol lysine compared with only 0.03 mmol/mol lysine for protein incubated under the same conditions with glucose. Glyoxal, a known precursor of CML, was also formed during incubation of RNase with arachidonate. These results suggest that lipid peroxidation, as well as glycoxidation, may be an important source of CML in tissue proteins in vivo and that CML may be a general marker of oxidative stress and long term damage to protein in aging, atherosclerosis, and diabetes.

Degradação do perfil bioquímico de um concentrado de Nannochloropsis sp. durante o seu período de validade

As algas do género Nannochloropsis são microalgas marinhas que apresentam um perfil bioquímico único, principalmente no que é respeitante a lípidos, e uma vasta gama de compostos bioativos que possibilitam a sua aplicabilidade comercial em várias áreas biotecnológicas, destacando-se a alimentação e nutrição humana, indústria cosmética e farmacêutica, produção de biocombustíveis e a sua utilização em aquacultura. Em aquacultura, são usadas maioritariamente microalgas vivas, cuja produção representa elevados custos. Tem havido assim uma pesquisa de dietas alternativas, entre as quais os concentrados de microalgas se apresentam promissores. Os desafios atuais das empresas produtoras de concentrados de microalgas prendem-se com a conservação e armazenamento destes concentrados. Assim, neste trabalho foi proposto o estudo da influência da refrigeração, congelação e adição de conservantes a PhytoBloom Green Formula®, concentrado de Nannochloropsis sp. comercializado pela empresa Necton S.A., com o objetivo de averiguar a variação de parâmetros bioquímicos e organoléticos com a exposição do concentrado aos diferentes métodos de conservação. Pretendia-se assim observar se estes processos podem ser usados para aumentar o tempo de prateleira do concentrado em estudo. Para tal, foram avaliadas amostras recolhidas em três pontos temporais e analisados os seguintes parâmetros: perfil de ácidos gordos, quantificação de hidroperóxidos lipídicos, quantificação espectrofotométrica de clorofila a e carotenóides, bem como parâmetros organoléticos. Inicialmente, foi efetuada uma avaliação de diferentes parâmetros organoléticos, não se observando variações relevantes entre amostras das diferentes condições. Assim, foi posteriormente realizada a avaliação bioquímica. Primeiramente, foi efetuada a quantificação de ácidos gordos por GC-FID das diferentes amostras, nas quais não se observou diferenças significativas entre as condições experimentais. Foi também efetuado um ensaio de FOX II, que permitiu avaliar o grau de peroxidação lipídica de cada amostra por quantificação de hidroperóxidos lipídicos formados. As amostras nas quais houve adição de conservantes apresentaram um teor menor de hidropéroxidos lipídicos, permitindo inferir que a ação dos conservantes com propriedades antioxidantes permitiu uma melhor conservação da amostra. Quando se determinou a concentração de clorofila a e de carotenóides verificou-se que, em ambos os casos, a congelação conduziu a uma estabilização da concentração destes pigmentos. No entanto, os melhores resultados foram obtidos usando a combinação de congelação com adição de conservantes. Estes resultados, embora promissores, carecem de uma confirmação por um novo estudo, completando com análises com maior rigor e sensibilidade associados, no sentido de se verificar qual o método mais vantajoso para a extensão do tempo de prateleira de PhytoBloom Green Formula®.

Degradação do perfil bioquímico de um concentrado de Nannochloropsis sp. durante o seu período de validade

As algas do género Nannochloropsis são microalgas marinhas que apresentam um perfil bioquímico único, principalmente no que é respeitante a lípidos, e uma vasta gama de compostos bioativos que possibilitam a sua aplicabilidade comercial em várias áreas biotecnológicas, destacando-se a alimentação e nutrição humana, indústria cosmética e farmacêutica, produção de biocombustíveis e a sua utilização em aquacultura. Em aquacultura, são usadas maioritariamente microalgas vivas, cuja produção representa elevados custos. Tem havido assim uma pesquisa de dietas alternativas, entre as quais os concentrados de microalgas se apresentam promissores. Os desafios atuais das empresas produtoras de concentrados de microalgas prendem-se com a conservação e armazenamento destes concentrados. Assim, neste trabalho foi proposto o estudo da influência da refrigeração, congelação e adição de conservantes a PhytoBloom Green Formula®, concentrado de Nannochloropsis sp. comercializado pela empresa Necton S.A., com o objetivo de averiguar a variação de parâmetros bioquímicos e organoléticos com a exposição do concentrado aos diferentes métodos de conservação. Pretendia-se assim observar se estes processos podem ser usados para aumentar o tempo de prateleira do concentrado em estudo. Para tal, foram avaliadas amostras recolhidas em três pontos temporais e analisados os seguintes parâmetros: perfil de ácidos gordos, quantificação de hidroperóxidos lipídicos, quantificação espectrofotométrica de clorofila a e carotenóides, bem como parâmetros organoléticos. Inicialmente, foi efetuada uma avaliação de diferentes parâmetros organoléticos, não se observando variações relevantes entre amostras das diferentes condições. Assim, foi posteriormente realizada a avaliação bioquímica. Primeiramente, foi efetuada a quantificação de ácidos gordos por GC-FID das diferentes amostras, nas quais não se observou diferenças significativas entre as condições experimentais. Foi também efetuado um ensaio de FOX II, que permitiu avaliar o grau de peroxidação lipídica de cada amostra por quantificação de hidroperóxidos lipídicos formados. As amostras nas quais houve adição de conservantes apresentaram um teor menor de hidropéroxidos lipídicos, permitindo inferir que a ação dos conservantes com propriedades antioxidantes permitiu uma melhor conservação da amostra. Quando se determinou a concentração de clorofila a e de carotenóides verificou-se que, em ambos os casos, a congelação conduziu a uma estabilização da concentração destes pigmentos. No entanto, os melhores resultados foram obtidos usando a combinação de congelação com adição de conservantes. Estes resultados, embora promissores, carecem de uma confirmação por um novo estudo, completando com análises com maior rigor e sensibilidade associados, no sentido de se verificar qual o método mais vantajoso para a extensão do tempo de prateleira de PhytoBloom Green Formula®.

A study of the thermal decomposition of allyl t-butyl peroxide and 3-hydroperoxy-1-propene (allyl hydroperoxide) in toluene /|nby Krishnankutty Nair V. G. -- 260 St. Catharines [Ont. : s. n.],

Kinetics and product studies of the decompositions of allyl-t-butyl peroxide and 3-hydroperoxy- l-propene (allyl hydroperoxide ) in tolune were investigated. Decompositions of allyl-t-butyl peroxide in toluene at 130-1600 followed first order kinetics with an activation energy of 32.8 K.cals/mol and a log A factor of 13.65. The rates of decomposition were lowered in presence of the radical trap~methyl styrene. By the radical trap method, the induced decomposition at 1300 is shown to be 12.5%. From the yield of 4-phenyl-l,2- epoxy butane the major path of induced decomposition is shown to be via an addition mechanism. On the other hand, di-t-butYl peroxyoxalate induced decomposition of this peroxide at 600 proceeded by an abstraction mechanism. Induced decomposition of peroxides and hydroperoxides containing the allyl system is proposed to occur mainly through an addition mechanism at these higher temperatures. Allyl hydroperoxide in toluene at 165-1850 decomposes following 3/2 order kinetics with an Ea of 30.2 K.cals per mole and log A of 10.6. Enormous production of radicals through chain branching may explain these relatively low values of E and log A. The complexity of the reaction is indicated a by the formation of various products of the decomposition. A study of the radical attack of the hydro peroxide at lower temperatures is suggested as a further work to throw more light on the nature of decomposition of this hydroperoxide.

The kinetics and solvent effects on the thermal decomposition of isopropyl peroxide and 1, 2-dioxane

Rates of H2 formation have been determined for the thermal decomposition of isopropyl peroxide at l30o-l50oC in toluene and methanol and at l400C in isopropyl alcohol and water. Product studies have been carried out at l400C in these solvents. The decomposition of isopropyl peroxide was shown to be unimolecular with energies of activation in toluene, and methanol of 39.1, 23.08 Kcal/mole respectively. It has been shown that the rates of H2 formation in decomposition of isopropyl peroxide are solvent dependent and that the ~ vs "'2';' values (parameters for solvent polarity) givesastraight line. Mechanisms for hydrogen production are discussed which satisfactorily explain the stabilization of the six-centered transition state by the solvent. One possibility is that of conformation stabilization by solvent and the other, a transition state with sufficient ionic character to be stabilized by a polar solvent. Rates of thermal decomposition of 1,2-dioxane in tert-butylbenzene at l40o-l70oC have been determined. The activation energy was found to be 33.4 Kcal/mole. This lower activation energy, compared to that for the decomposition of isopropyl peroxide in toluene (39.1 Kcal/mole) has been explained in terms of ring strain. Decomposition of 1,2 dioxane in MeOH does not follow a first order reaction. Several mechanisms have been suggested for the products observed for decomposition of 1;2-dioxane in toluene and methanol.

Contamination des solutions d’hyper-alimentation intraveineuses (HAIV) néonatales, effet de l’ascorbylperoxyde au foie

Introduction : Chez les nouveau-nés prématurés, l’hyper-alimentation intraveineuse (HAIV) contribue à leur survie, mais elle est aussi une source importante de molécules oxydantes. L’absence d’une protection adéquate contre la lumière ambiante génère in vitro, via la photo-excitation de la riboflavine, du H2O2, des peroxydes organiques et un dérivé peroxydé de la vitamine C, l’ascorbylperoxyde (AscOOH). Plusieurs données du laboratoire associent l’infusion d’HAIV à des désordres lipidiques dans notre modèle animal. L’hypothèse est donc que l’AscOOH a un pouvoir oxydant et est responsable de certains des effets biologiques observés. Mes objectifs sont les suivants : 1) développer une méthode de dosage de l’AscOOH; 2) démontrer, à l’aide du modèle animal bien établi au laboratoire, des relations entre la concentration tissulaire de cette molécule et des paramètres métaboliques et l’état redox au foie et dans la circulation; et 3) confirmer l’effet physiologique de l’AscOOH dans un modèle cellulaire. Méthode : Différents étalons internes potentiels ont été testés pour le dosage de l’AscOOH par spectrométrie de masse après séparation sur HPLC (LC-MS). Les phases mobiles et conditions chromatographiques ont été optimisées. Pour l’objectif 2, des cobayes de 3 jours de vie (n=11) ont reçu par voie intraveineuse une dose d’AscOOH (entre 0 et 3,3mM). Les animaux ont été sacrifiés au 4e jour de traitement pour le prélèvement de tissus. Les concentrations tissulaires d’AscOOH ont été déterminées au LC-MS. La triglycéridémie et la cholestérolémie ont été mesurées à l’aide d’un kit commercial par spectrophotométrie. Le glutathion oxydé et réduit ont été mesurés par électrophorèse capillaire. Les relations linéaires obtenues sont exprimées par le ratio des carrés (r2), et traitées par ANOVA. Résultats : La validation du dosage de l’AscOOH par LC-MS a été réalisée. Chez les animaux, la concentration urinaire d’AscOOH par créatinine corrèle positivement avec la dose reçue, négativement avec la lipidémie, et négativement avec le redox sanguin et érythrocytaire, indiquant un milieu moins oxydé. Conclusion : La concentration urinaire d’AscOOH peut donc être un reflet de l’oxydation de l’HAIV en clinique. Nos données chez l’animal suggèrent une interaction de l’AscOOH avec le métabolisme hépatique produisant une chute de la concentration plasmatique de cholestérol et de triglycérides. Le modèle cellulaire n’a pas permis d’élucider le mécanisme moléculaire de l’action de l’AscOOH sur le métabolisme.

La contamination de la nutrition parentérale par l’ascorbylperoxyde perturbe le métabolisme énergétique chez le cochon d'inde nouveau-né

L'exposition à la lumière des solutions de nutrition parentérale (NP) génère des peroxydes tels que l'H2O2 et l'ascorbylperoxyde (AscOOH). Cette absence de photo-protection provoque une augmentation des triglycérides (TG) plasmatique chez les enfants prématurés et chez un modèle animal, ayant un stress oxydatif et une stéatose hépatique indépendante de l’exposition au H2O2. Nous pensons que l'AscOOH est l'agent actif conduisant à l'élévation des TG. Le but est d'investiguer le rôle de l'AscOOH sur les métabolismes du glucose et des lipides à l'aide d'un modèle animal néonatal de NP.

Impact of a neonatal parenteral nutrition on the hepatic activity of methionine adenosyltransferase, a limiting step for glutathione synthesis

Problématique : Le glutathion est une molécule clé de la défense antioxydante. Chez les enfants sous nutrition parentérale (NP), particulièrement les nouveau-nés, sa concentration tissulaire est anormalement basse. Puisque la capacité de synthèse de glutathion est adéquate, un déficit en cystéine, le substrat limitant, est soupçonnée. À cause de son instabilité en solution, la cystéine est peu présente en NP; la méthionine étant le précurseur endogène de cet acide aminé. L’activité de la méthionine adénosyltransférase (MAT), une enzyme essentielle à la transformation de la méthionine en cystéine, est facilement inhibée par l’oxydation. L’hypothèse : Le faible taux de glutathion chez les enfants sous NP est causé par l’inhibition de la MAT par les peroxydes contaminant ces solutions nutritives. Objectif: Mesurer l’impact d’une infusion de NP et de H2O2 sur l’activité hépatique de MAT en relation avec le niveau de glutathion. Méthode : Un cathéter est placé dans la jugulaire droite de cobayes de trois jours de vie. Quatre groupes sont comparés:1- Témoin (animaux aucune manipulation, sans cathéter) 2)-(animaux nourris normalement et le cathéter (noué)); 3) NP (animaux nourris exclusivement par voie intraveineuse (acides aminés + dextrose + lipides + vitamines + électrolytes), cette solution génère environ 400 µM de peroxyde. 4) H2O2 (animaux nourris normalement et recevant via le cathéter 400 µM de H2O2). Après quatre jours, le foie et le sang sont prélevés pour la détermination du glutathion, potentiel redox et l’activité de MAT, glutathion peroxydase et glutathion reductase. Résultats : L’activité de MAT est plus faible dans les groupes NP et H2O2. Le potentiel redox du foie et dans le sang est plus oxydé dans le groupe NP. Tandis que la concentration de GSSG du foie est plus élevée dans le groupe NP. Ainsi la concentration de GSH dans le sang et foie est plus faible dans les NP et H2O2 Discussion: La relation entre l’inhibition de MAT et le stress oxydant observée dans le groupe NP pourrait bien expliquer la perturbation du système glutathion observée chez les nouveau-nés prématurés.

The effect of oxygen and parenteral nutrition on the redox potential and bronchopulmonary dysplasia in extremely preterm infants

Introduction: Le supplément d’oxygène et la nutrition parentérale (NP) sont les deux sources majeures de stress oxydant chez le nouveau-né. Lors de la détoxification des oxydants, le potentiel redox du glutathion s’oxyde. Notre hypothèse est que le supplément d’oxygène et la durée de la NP sont associés à un potentiel redox plus oxydé et à une augmentation de la sévérité de la dysplasie bronchopulmonaire (DBP). Patients et Méthodes: Une étude observationnelle prospective incluant des enfants de moins de 29 semaines d’âge gestationnel. Les concentrations sanguines de GSH et GSSG à jour 6-7 et à 36 semaines d’âge corrigé étaient mesurées par électrophorèse capillaire et le potentiel redox était calculé selon l’équation de Nernst. La sévérité de la DBP correspondait à la définition du NICHD. Résultats: Une FiO2≥ 25% au 7ième jour de vie ainsi que plus de 14 jours de NP sont significativement associés à un potentiel redox plus oxydé et à une DBP plus sévère. Ces relations sont indépendantes de l’âge de gestation et de la gravité de la maladie initiale. La corrélation entre le potentiel redox et la sévérité de la DBP n’est pas significative. La durée de la NP était responsable de 15% de la variation du potentiel redox ainsi que de 42% de la variation de la sévérité de la DPB. Conclusion: Ces résultats suggèrent que l’oxygène et la NP induisent un stress oxydant et que les stratégies visant une utilisation plus judicieuse de l’oxygène et de la NP devraient diminuer la sévérité de la DBP.