Chemical characteristics of grape juices from different cultivar and rootstock combinations

The objective of this work was to evaluate the influence of different combinations of grape cultivars and rootstocks on chemical characteristics of grape juices. Six treatments were evaluated, consisting of combinations between the Isabel Precoce and BRS Cora grape cultivars and the 'IAC 766', 'IAC 313', and 'IAC 572' rootstocks. Approximately 10 L of juice were obtained per treatment. Analyses of color, total soluble solids content, pH, anthocyanins, total phenolics, total sugars, and quantification and identification of biogenic amines by HPLC were performed. Biogenic amines, such as putrescine, cadaverine, spermidine, and spermine, were found in all evaluated cultivars. By principal component analysis (PCA), treatments can be divided into two groups, according to the cultivar. Juices obtained from 'Isabel Precoce' are characterized by higher levels of total sugar content and soluble solids; however, juices from 'BRS Cora' are positively correlated with phenolic content, anthocyanins, and color and acidity parameters. The differences found by PCA for juices from the Isabel Precoce and BRS Cora cultivars indicate that, regardless of the rootstock used, the most important factor in the chemical characterization of juices is the grape cultivar.

Nucleophile-Catalyzed Additions to Activated Triple Bonds. Protection of Lactams, Imides, and Nucleosides with MocVinyl and Related Groups

Additions of lactams, imides, (S)-4-benzyl-1,3-oxazolidin-2-one, 2-pyridone, pyrimidine-2,4-diones (AZT derivatives), or inosines to the electron-deficient triple bonds of methyl propynoate, tert-butyl propynoate, 3-butyn-2-one, N-propynoylmorpholine, or N-methoxy-N-methylpropynamide in the presence of many potential catalysts were examined. DABCO and, second, DMAP appeared to be the best (highest reaction rates and E/Z ratios), while RuCl3, RuClCp*(PPh3)2, AuCl, AuCl(PPh3), CuI, and Cu2(OTf)2 were incapable of catalyzing such additions. The groups incorporated (for example, the 2-(methoxycarbonyl)ethenyl group that we name MocVinyl) serve as protecting groups for the above-mentioned heterocyclic CONH or CONHCO moieties. Deprotections were accomplished via exchange with good nucleophiles: the 1-dodecanethiolate anion turned out to be the most general and efficient reagent, but in some particular cases other nucleophiles also worked (e.g., MocVinyl-inosines can be cleaved with succinimide anion). Some structural and mechanistic details have been accounted for with the help of DFT and MP2 calculations.

Métabolisme d'antidépresseurs dans différentes espèces : aspects méthodologiques et pharmacogénétiques, perspectives cliniques

Résumé pour large public Unité de Biochimie et Psychopharmacologie Clinique, Centre de neurosciences Psychiatrique, Département de Psychiatrie Adulte, Faculté de Biologie et de Médecine, Université de Lausanne Lors de la prise d'un médicament, celui-ci va passer par différentes étapes que sont l'absorption, la distribution, le métabolisme et enfin l'élimination. Ces quatre étapes sont regroupées sous le nom de pharmacocinétique. A noter que ces quatre paramètres sont dynamiques et en constante évolution. Durant cette thèse, nous avons investigué différents aspects de la pharmacocinétique, tout d'abord par une revue de la littérature sur la glycoprotéine-P (Pgp). Récemment découverte, cette protéine de membrane est située aux endroits stratégiques de l'organisme comme la barrière hématoencéphalée, le placenta ou les intestins où elle influencera l'entrée de différentes substances, en particulier les médicaments. La Pgp serait impliquée dans les phénomènes de résistances aux agents thérapeutiques en oncologie. La Pgp influence donc l'absorption des médicaments, et son impact en clinique, en termes d'efficacité de traitement et de toxicité prend chaque jour plus d'importance. Ensuite nous avons mis au point une méthode d'analyse quantitative d'un antidépresseur d'une nouvelle génération : la mirtazapine (Remeron®). La nouveauté réside dans la façon dont la mirtazapine interagit avec les neurotransmetteurs impliqués dans la dépression que sont la sérotonine et la noradrénaline. Cette méthode utilise la chromatographie liquide pour séparer la mirtazapine de ses principaux métabolites dans le sang. La spectrométrie de masse est utilisée pour les détecter et les quantifier. Les métabolites sont des substances issues de réactions chimiques entre la substance mère, la mirtazapine, et généralement des enzymes hépatiques, dans le but de rendre cette substance plus soluble en vue de son élimination. Cette méthode permet de quantifier la mirtazapine et ses métabolites dans le sang de patients traités et de déterminer la variation des taux plasmatiques chez ces patients. Puis nous avons étudié le métabolisme d'un autre antidépresseur, le citalopram, qui a un métabolisme complexe. Le citalopram est un racémate, c'est-à-dire qu'il existe sous forme de deux entités chimiques (R-(-) et S-(+) citalopram) qui ont le même nombre d'éléments mais arrangés différemment dans l'espace. La voie métabolique cérébrale du citalopram est sous le contrôle d'une enzyme, la monoamine oxydase (MAO), conduisant à une forme acide du citalopram (l'acide propionique du citalopram). La MAO existe sous deux formes : MAO-A et MAO-B. Nous avons utilisé des souris déficientes d'un gène, celui de la MAO-A, pour mieux en comprendre le métabolisme en les comparants à des souris sauvages (sans déficience de ce gène). Nous avons utilisé le citalopram et deux de ses métabolites (le déméthylcitaloprarn et le didéméthyícitalopram) comme substrats pour tester la formation in vitro de l'acide propionique du citalopram. Nos résultats montrent que la MAO-A favorise la formation de l'entité R-(-) et présente une plus grande affinité pour le citalopram, tandis que la MAO-B métabolise préférentiellement l'entité S-(+) et a une plus grande affinité pour les deux métabolites déméthylés. De plus, la déficience en MAO-A est partiellement compensée parla MAO-B chez les souris déficientes du gène de la MAO-A. Enfin, nous avons étudié une deuxième voie métabolique du citalopram qui s'est avérée toxique chez le chien Beagle. Celle-ci est catalysée par une autre famille d'enzymes, les cytochromes P-450, et mène aux métabolites déméthylés et didéméthylés du citalopram. Nous avons utilisé des tissus hépatiques de chiens Beagle. Plusieurs cytochromes P-450 sont impliqués dans le métabolisme du citalopram menant à sa forme déméthylée, ceci tant chez l'homme que chez le chien. Par contre, dans le métabolisme de la forme déméthylée menant à 1a forme didéméthylée, un seul cytochrome P-450 serait impliqué chez l'Homme, tandis qu'ils seraient plusieurs chez le chien. L'activité enzymatique produisant la forme didéméthylée est beaucoup plus importante chez le chien comparé à l'homme. Cette observation soutien l'hypothèse que des taux élevés de la forme didéméthylée participent à la toxicité spécifique du citalopram chez le chien. Nous pouvons conclure que plusieurs famille d'enzymes sont impliquées tant au niveau cérébral qu'hépatique dans la métabolisation de médicaments psychotropes. Sachant que les enzymes peuvent être stimulées ou inhibées, il importe de pouvoir suivre au plus prés les taux plasmatiques des différents psychotropes et de leurs métabolites. Résumé Unité de Biochimie et Psychopharmacologie Clinique, Centre de neurosciences Psychiatrique, Département de Psychiatrie Adulte, Faculté de Biologie et de Médecine, Université de Lausanne La plupart des médicaments subissent une transformation enzymatique dans l'organisme. Les substances issues de cette métabolisation ne sont pas toujours dotées d'une activité pharmacologique. Il s'est avéré par conséquent indispensable de suivre les taux plasmatiques d'une substance et de ses métabolites et d'établir ou non l'existence d'une relation avec l'effet clinique observé. Ce concept nommé « therapeutic drag monitoring » (TDM) est particulièrement utile en psychiatrie ou un manque de compliance des patients est fréquemment observé. Les médicaments psychotropes ont un métabolisme principalement hépatique (cytochromes P-450) et parfois cérébral (monoamines oxydases), comme pour le citalopram par exemple. Une méthode stéréosélective de chromatographie liquide couplée à la spectrométrie de masse a été développée pour analyser les énantiomères R-(-) et S-(+) d'un antidépresseur agissant sur les récepteurs noradrénergiques et sérotoninergiques, la mirtazapine et de ses métabolites déméthylmirtazapine et 8-hydroxymirtazapine. Les données préliminaires obtenues dans les plasmas dosés suggèrent que les concentrations de R-(-)-mirtazapine sont plus élevées que celles de S-(+)-mirtazapine, à l'exception des patients qui auraient comme co-médication des inhibiteurs du CYP2D6, telle que la fluoxétine ou la thioridazine. Il y a une enantiosélectivité du métabolisme de la mirtazapine. En particulier pour la 8-hydroxymirtazapine qui est glucuroconjuguée et pour laquelle le ratio S/R varie considérablement. Cette méthode analytique présente l'avantage d'être utilisable pour le dosage stéréosélectif de la mirtazapine et de ses métabolites dans le plasma de patients ayant d'autres substances en co-médication. La glycoprotéine P fonctionne comme une pompe transmembranaire transportant les xénobiotiques depuis le milieu intracellulaire vers le milieu extracellulaire. Son induction et son inhibition, bien que moins étudiées que pour les cytochromes P-450, ont des implications cliniques importantes en termes d'efficacité de traitement et de toxicité. Cette glycoprotéine P a fait l'objet d'une recherche bibliographique. Nous avons étudié le métabolisme du citalopram, un antidépresseur de la classe des inhibiteurs spécifiques de la recapture de la sérotonine chez la souris et chez le chien. Cette substance subit un métabolisme complexe. La voie de métabolisation conduisant à la formation de l'acide propionique du citalopram, catalysée par les monoamines oxydases, a été étudiée in vitro dans les mitochondries cérébrales chez la souris déficiente du gène de la MAO-A (Tg8). La monoamine oxydase A catalyse la formation de l'énantiomère R-(-) et présente une plus grande affinité pour les amines tertiaires, tandis que la monoamine oxydase B favorise la formation de la forme S-(+) et a une affinité plus marquée pour les amines secondaires et primaires. L'étude du citalopram chez la souris Tg8 adulte a montré que la monoamine oxydase B compense la déficience de la monoamine oxydase A chez ces souris génétiquement modifiées. Une autre voie de métabolisation du citalopram conduisant à la formation de didéméthylcitalopram, catalysée par les cytochromes P-450, a été étudiée in vitro dans des microsomes hépatiques de chiens Beagle. Nos études ont montré que les cinétiques de N-déméthylation du citalopram sont biphasiques chez le chien. Les orthologues canins impliqués dans la première N-déméthylation semblent être identiques aux cytochromes P-450 humains. Par contre, dans la deuxième Ndéméthylation, un seul cytochrome P-450 semble être impliqué chez l'homme (CYP2D6), tandis qu'on retrouve jusqu'à cinq orthologues chez le chien. Le CYP2D15, orthologue canin du CYP2D6, est majoritairement impliqué. De plus, l'activité enzymatique, reflétée par les clairances intrinsèques, dans la première N-déméthylation est jusqu'à 45 fois plus élevée chez le chien comparé à l'homme. Ces différentes observations soutiennent l'hypothèse que des taux élevés de didéméthylcitalopram sont responsables de la toxicité du citalopram chez le chien. Nous pouvons conclure que plusieurs famille d'enzymes sont impliquées tant au niveau cérébral qu'hépatique dans la métabolisation de médicaments psychotropes. Sachant -que les enzymes peuvent être induits ou inhibés, il importe de pouvoir suivre au plus près les taux plasmatiques des différents psychotropes et de leurs métabolites. Summary Most of the drugs are metabolized in the organism. Substances issued from this metabolic activity do not always show a pharmacological activity. Therefore, it is necessary to monitor plasmatic levels of drugs and their metabolites, and establish the relationship with the clinical effect. This concept named therapeutic drug monitoring is very useful in psychiatry where lack of compliance is commonly observed. Antidepressants are mainly metabolized in the liver (cytochrome P-450) and sometimes in the brain (monoamine oxidase) like the citalopram, for exemple. A LC-MS method was developed, which allows the simultaneous analysis of R-(-) and S-(+) enantiomers of mirtazapine, an antidepressant acting specifically on noradrenergic and serotonergic receptors, and its metabolites demethylmirtazapine and 8-hydroxymirtazapine in plasma of mirtazapine treated patients. Preliminary data obtained suggested that R-(-) mirtazapine concentrations were higher than those of S-(+) mirtazapine, except in patients comedicated with CYP2D6 inhibitors such as fluoxetine or thioridazine. There is an enantioselectivity in the metabolism of mirtazapine. In particular for the 8-hydroxymirtazapine, which is glucuroconjugated and S/R ratio varies considerably. Therefore this method seems to be suitable for the stereoselective assay of mirtazapine and its metabolites in plasma of patients comedicated with mirtazapine and other drugs for routine and research purposes. P-glycoprotein is working as an efflux transporter of xenobiotics from intracellular to extracellular environment. Its induction or inhibition, although less studied than cytochrome P-450, has huge clinical implications in terms of treatment efficacy and toxicity. An extensive literature search on P-glycoprotein was performed as part of this thesis. The study of citalopram metabolism, an antidepressant belonging to the class of selective serotonin reuptake inhibitors. This substance undergoes a complex metabolism. First metabolization route leading to citalopram propionic acid, catalyzed by monoamine oxidase was studied in vitro in mice brain mitochondria. Monoamine oxidase A catalyzed the formation of R-(-) enantiomer and showed greater affinity for tertiary amines, whereas monoamine oxidase B triggered the formation of S-(+) enantiomer and demonstrated higher affinity for primary and secondary amines. citalopram evaluation in adult Tg8 mice showed that monoamine oxidase B compensated monoamine oxidase A deficiency in those genetically transformed mice. The second metabolization route of citalopram leading to didemethylcitalopram and catalyzed by cytochrome P-450 was studied in vitro in Beagle dog's livers. Our results showed that citalopram N-demethylation kinetics are biphasic in dogs. Canine orthologs involved in the first N-demethylation seemed to be identical to human cytochromes P-450. However, in the second N-demethylation only one cytochrome P-450 seemed to be involved in human (CYP2D6), whereas up to five canine orthologs were found in dogs. CYP2D15 canine ortholog of CYP2D6 was mainly involved. In addition, enzymatic activity reflected by intrinsic clearance in the first N-demethylation was up to 45 fold higher in dogs compared to humans. Those observations support the assumption that elevated rates of didemethylcitalopram are responsible for citalopram toxicity in dogs. We can conclude that several enzymes groups are involved in the brain, as well as in the liver, in antidepressant metabolization. Knowing that enzymes may be induced or inhibited, it makes sense to closely monitor plasmatic levels of antidepressants and their metabolites.

Naphthylamine, 2-

2-Naphthylamine (2NA, CAS # 91-59-8) was used in as an intermediate in the dye industry and in the rubber industry. 2NA is frequently produced when nitrogenous organic materials are burned or heated. Tobacco smoke, heated cooking oil, and many other smokes contain 2NA as well as other aromatic amines. 2NA is among the most potent human urinary bladder carcinogens. It is well absorbed by all routes.

Removal of Cadmium, Lead and Arsenic from Water by Lactic Acid Bacteria

A number of contaminants such as arsenic, cadmium and lead are released into the environment from natural and anthropogenic sources contaminating food and water. Chronic oral ingestion of arsenic, cadmium and lead is associated with adverse effects in the skin, internal organs and nervous system. In addition to conventional methods, biosorption using inactivated biomasses of algae, fungi and bacteria has been introduced as a novel method for decontamination of toxic metals from water. The aim of this work was to evaluate the applicability of lactic acid bacteria as tools for heavy metal removal from water and characterize their properties for further development of a biofilter. The results established that in addition to removal of mycotoxins, cyanotoxins and heterocyclic amines, lactic acid bacteria have a capacity to bind cationic heavy metals, cadmium and lead. The binding was found to be dependent on the bacterial strain and pH, and occurred rapidly on the bacterial surface, but was reduced in the presence of other cationic metals. The data demonstrates that the metals were bound by electrostatic interactions to cell wall components. Transmission electron micrographs showed the presence of lead deposits on the surface of biomass used in the lead binding studies, indicating involvement of another uptake/binding mechanism. The most efficient strains bound up to 55 mg Cd and 176 mg Pb / g dry biomass. A low removal of anionic As(V) was also observed after chemical modification of the cell wall. Full desorption of bound cadmium and lead using either dilute HNO₃ or EDTA established the reversibility of binding. Removal of both metals was significantly reduced when biomass regenerated with EDTA was used. Biomass regenerated with dilute HNO3 retained its cadmium binding capacity well, but lead binding was reduced. The results established that the cadmium and lead binding capacity of lactic acid bacteria, and factors affecting it, are similar to what has been previously observed for other biomasses used for the same purpose. However, lactic acid bacteria have a capacity to remove other aqueous contaminants such as cyanotoxins, which may give them an additional advantage over the other alternatives. Further studies focusing on immobilization of biomass and the removal of several contaminants simultaneously using immobilized bacteria are required.

Applications of optically active metallacycles: new useful materials for the determination of the enantiomeric excess of Lewis bases and as resolving agents for monodentate phosphines

Es descriu la síntesi de nous compostos ciclopal·ladats derivats d'imines i amines primàries, òpticament actius, així com les seves aplicacions per a la determinació de l'excés enantiomèric i per a la resolució de bases de Lewis. També es comenta la síntesi i resolució de noves fosfines P-quirals, així com la seva aplicació a processos de catàlisi asimètrica. A més, es descriu la preparació d'algunes fosfines secundàries quirals i s'estudia la seva estabilitat configuracional.

Päällystetyn graafisen kartongin hajuominaisuudet

Diplomityön tavoitteena oli selvittää elintarvikepakkauksiin soveltuvan graafisen kartongin potentiaalinen hajun aiheuttaja. Lisäksi tavoitteena oli vähentää päällystetyn tasakoosteisen (SBS) kolmikerroskartongin hajutasoa keskittyen päällystyspastakomponentteihin sekä massaosaston jälkeen annosteltaviin kemikaaleihin. Kirjallisuusosassa tarkasteltiin eri kartonkilajeja, päällystyspastoja ja sen sisältämiä komponentteja, pääpainon ollessa kuitenkin kartongin hajuominaisuuksiin vaikuttavien tekijöiden selvittämisessä. Lisäksi luotiin katsaus kartonkien aistinvaraisiin ja instrumentaalisiin määritysmenetelmiin. Instrumentaalisista määritysmenetelmistä käsiteltiin headspace –kaasukromatografia (HSGC) sekä korkeanerotuskyvyn nestekromatografia yhdistettynä massaspektrometriin (HPLC/MS). Kokeellisen osan alussa kartoitettiin päällystyskemikaalien sekä liima- ja retentioaineiden haihtuvat yhdisteet HSGC- ja HPLC/MS –tekniikoiden avulla. Kaasukromatografisesti analysoidut kokonaishaihtuvien tasot eivät poikenneet normaaleista tasoista, joten jouduttiin siirtymään HPLC/MS –menetelmään. HPLC/MS –tekniikalla on päästy tutkimaan herkästi haihtuvien typpiyhdisteiden amiinipitoisuuksia. Kemikaalimittausten perusteella vaihdettiin potentiaaliset hajua aiheuttavat kemikaalit, kovete ja synteettinen paksuntaja, markkinoilla oleviin vaihtoehtoisiin kemikaaleihin ja suoritettiin pilot -koeajo sekä tehdasmittakaavaiset koeajot. Työssä perehdyttiin myös varastoinnin aiheuttamiin vaikutuksiin eri kartonkilaatujen aistinvaraisissa ominaisuuksissa. Päällystyspastan kemikaaleista suuren hajukuorman aiheuttavat kovete, dispergointiaine, päällystyspigmentit ja lateksit sekä synteettinen paksuntaja. Kovetteen annostelumäärä päällystyspastoihin on alhainen, mutta sen sisältämä ammoniakkipitoisuus on kuitenkin huomattavan suuri. Kovete ohjaakin lopputuotteen ammoniakkipitoisuutta. Merkittävän metyyliamiinikuorman sisältää dispergointiaine. Sen vaikutus lopputuotteeseen voidaan olettaa vähäiseksi johtuen kemikaalin pienestä määrästä pastassa. Päällystyspigmenttien ja lateksien korkea metyyliamiinikuorma voi puolestaan aiheuttaa lopputuotteeseen huomattavan hajukuorman johtuen niiden suurista annostelumääristä. Eri synteettisille paksuntajille tehtyjen tutkimusten mukaan niiden hajukuormat olivat hyvin samankaltaisia ja vaikutus lopputuotteen kokonaishajutasoon jäi pieneksi. Aistinvaraisesti tarkasteltuna eri kartonkilaaduille saadaan eri hajutasoja. Elintarvikepakkauksiin soveltuvan graafisen kartongin hajutasot olivat korkeita muihin kartonkilaatuihin nähden niin tuoreena kuin varastoinnin jälkeen. Erityisesti tuoreen kartonkinäytteen metyyliamiinipitoisuus ylitti hajukynnyksen. Käytetty lateksi, kovete ja synteettinen paksuntaja näyttävät muodostavan niin tiiviin hajua koteloivan päällystekerroksen kartongin pinnalle, että hajua vapautuu pitkällä aikavälillä. Myös varastointi tiiviinä pakkauksena estää amiinien haihtumisen. Tutkimusten mukaan ammoniakkivapaalla PZC –kovetteella saadaan alennettua graafisen kartongin ammoniakkikuormaa huomattavasti. Tämä on vaikuttamassa myös lopputuotteen hajutasoon, jota on mahdollisuus alentaa käyttämällä ammoniakkivapaata kovetetta.

Gas-phase photocatalytic oxidation of volatile organic compounds

Substances emitted into the atmosphere by human activities in urban and industrial areas cause environmental problems such as air quality degradation, respiratory diseases, climate change, global warming, and stratospheric ozone depletion. Volatile organic compounds (VOCs) are major air pollutants, emitted largely by industry, transportation and households. Many VOCs are toxic, and some are considered to be carcinogenic, mutagenic, or teratogenic. A wide spectrum of VOCs is readily oxidized photocatalytically. Photocatalytic oxidation (PCO) over titanium dioxide may present a potential alternative to air treatment strategies currently in use, such as adsorption and thermal treatment, due to its advantageous activity under ambient conditions, although higher but still mild temperatures may also be applied. The objective of the present research was to disclose routes of chemical reactions, estimate the kinetics and the sensitivity of gas-phase PCO to reaction conditions in respect of air pollutants containing heteroatoms in their molecules. Deactivation of the photocatalyst and restoration of its activity was also taken under consideration to assess the practical possibility of the application of PCO to the treatment of air polluted with VOCs. UV-irradiated titanium dioxide was selected as a photocatalyst for its chemical inertness, non-toxic character and low cost. In the present work Degussa P25 TiO2 photocatalyst was mostly used. In transient studies platinized TiO2 was also studied. The experimental research into PCO of following VOCs was undertaken: - methyl tert-butyl ether (MTBE) as the basic oxygenated motor fuel additive and, thus, a major non-biodegradable pollutant of groundwater; - tert-butyl alcohol (TBA) as the primary product of MTBE hydrolysis and PCO; - ethyl mercaptan (ethanethiol) as one of the reduced sulphur pungent air pollutants in the pulp-and-paper industry; - methylamine (MA) and dimethylamine (DMA) as the amino compounds often emitted by various industries. The PCO of VOCs was studied using a continuous-flow mode. The PCO of MTBE and TBA was also studied by transient mode, in which carbon dioxide, water, and acetone were identified as the main gas-phase products. The volatile products of thermal catalytic oxidation (TCO) of MTBE included 2-methyl-1-propene (2-MP), carbon monoxide, carbon dioxide and water; TBA decomposed to 2-MP and water. Continuous PCO of 4 TBA proceeded faster in humid air than dry air. MTBE oxidation, however, was less sensitive to humidity. The TiO2 catalyst was stable during continuous PCO of MTBE and TBA above 373 K, but gradually lost activity below 373 K; the catalyst could be regenerated by UV irradiation in the absence of gas-phase VOCs. Sulphur dioxide, carbon monoxide, carbon dioxide and water were identified as ultimate products of PCO of ethanethiol. Acetic acid was identified as a photocatalytic oxidation by-product. The limits of ethanethiol concentration and temperature, at which the reactor performance was stable for indefinite time, were established. The apparent reaction kinetics appeared to be independent of the reaction temperature within the studied limits, 373 to 453 K. The catalyst was completely and irreversibly deactivated with ethanethiol TCO. Volatile PCO products of MA included ammonia, nitrogen dioxide, nitrous oxide, carbon dioxide and water. Formamide was observed among DMA PCO products together with others similar to the ones of MA. TCO for both substances resulted in the formation of ammonia, hydrogen cyanide, carbon monoxide, carbon dioxide and water. No deactivation of the photocatalyst during the multiple long-run experiments was observed at the concentrations and temperatures used in the study. PCO of MA was also studied in the aqueous phase. Maximum efficiency was achieved in an alkaline media, where MA exhibited high fugitivity. Two mechanisms of aqueous PCO – decomposition to formate and ammonia, and oxidation of organic nitrogen directly to nitrite - lead ultimately to carbon dioxide, water, ammonia and nitrate: formate and nitrite were observed as intermediates. A part of the ammonia formed in the reaction was oxidized to nitrite and nitrate. This finding helped in better understanding of the gasphase PCO pathways. The PCO kinetic data for VOCs fitted well to the monomolecular Langmuir- Hinshelwood (L-H) model, whereas TCO kinetic behaviour matched the first order process for volatile amines and the L-H model for others. It should be noted that both LH and the first order equations were only the data fit, not the real description of the reaction kinetics. The dependence of the kinetic constants on temperature was established in the form of an Arrhenius equation.

Role of nitric oxide in genotoxicity: implication for carcinogenesis.

Reactive oxygen species can initiate carcinogenesis by virtue of their capacity to react with DNA and cause mutations. Recently, it has been suggested that nitric oxide (NO) and its derivatives produced in inflamed tissues could contribute to the carcinogenesis process. Genotoxicity of NO follows its reaction with oxygen and superoxide. It can be due either to direct DNA damage or indirect DNA damage. Direct damage includes DNA base deamination, peroxynitrite-induced adducts formation and single strand breaks in the DNA. Indirect damage is due to the interaction of NO reactive species with other molecules such as amines, thiols and lipids. The efficiency of one pathway or another might depend on the cellular antioxidant status or the presence of free metals.

Contribuições recentes da reação de hidroformilação na síntese de produtos farmacêuticos: parte II

The hydroformylation reaction represents one of the most important C1-chemistry area in the chemical industry. This catalytic process, which has been developed up to now mainly to the production of commodities chemicals, has shown a remarkable potential for the preparation of several categories of specialty chemicals and in particular pharmaceutical compounds. Arylpropanoic acids, various amines containing aryl groups, and intermediates for the preparation of vitamins, carbocyclic and heterocyclic compounds and many other classes of organic molecules endowed with pharmacological activity are currently accessible in good-to-high yields through hydroformylation of selected olefinic substrates. The asymmetric hydroformylation is going to reach the stage of maturity and hence to contribute in solving many troublesome synthetic problems connected with the preparation of pharmacologically active compounds with very high enantiomeric purity. The present survey emphasizes the usefulness of synthesis gas as a starting material in fine chemistry, which is expected to be important for industry.

Synthesis of a tetrahydroimidazo-[2',1':2,3]thiazolo[5,4-c]pyridine derivative with Met inhibitory activity

A straightforward synthesis of the Met antagonist JLK1360 involving an alkylationcyclocondensation process using aminothiazole 1 and nitrophenacyl bromide 2, reduction of the nitro group, and coupling of the resulting tetracyclic aniline 5 with an appropriate N-acyl alanine derivative, is reported.

Synthesis of a tetrahydroimidazo-[2',1':2,3]thiazolo[5,4-c]pyridine derivative with Met inhibitory activity

A straightforward synthesis of the Met antagonist JLK1360 involving an alkylationcyclocondensation process using aminothiazole 1 and nitrophenacyl bromide 2, reduction of the nitro group, and coupling of the resulting tetracyclic aniline 5 with an appropriate N-acyl alanine derivative, is reported.

Fotoiniciação de polimerização vinílica

The initiation step of the light-induced polymerization kinetics of vinyl monomers using dye-sensitized photoinitiators to generate active radicals is discussed. The photoredox processes of basic dyes with amines and sulfinates are described as photochemical systems capable of starting free-radical polymerization of vinyl monomers in homogeneous and microheterogeneous media. Photophysical techniques like laser flash photolysis and time-correlated single photon counting are used to investigate the excited-state kinetics of the dyes.

Determinação direta de crômio em açúcar e leite por espectrometria de absorção atômica com atomização eletrotérmica em forno de grafite

A fast and direct method for the determination of Cr in milk and cane sugar suspensions using graphite furnace atomic absorption spectrometry with Zeeman-effect background correction is described. No sample pre-treatment was necessary, minimizing the risk of contamination. The concentration of chromium in cane sugar was evaluated using Cr reference solutions prepared in 1% v/v HNO3 solution. The milk samples were introduced into the furnace with a mixture of amines for avoiding the autosampler blockage and foaming of milk. Chromium determination in milk was based on the standard additions method (SAM). The limit of detection and characteristic mass for cane sugar sample (30 muL) were 0,13 ng/ml and 4,3 pg, and for milk sample (10 muL) were 0,23 ng/ml and 7,8 pg, respectively. The graphite tube lifetime was 300 firings for sugar-cane sample and 100 firings for milk sample. The heating program was implemented in 68 s.

Componentes voláteis do café torrado. Parte II. Compostos alifáticos, alicíclicos e aromáticos

This review is about the aliphatic, alicyclic and aromatic compounds (non-heterocyclic compounds) that are present in the volatile fractions of roasted coffees. Herein, the contents, aroma precursors and the sensorial properties of volatile phenols, aldehydes, ketones, alcohols, ethers, hydrocarbons, carboxylic acids, anhydrides, esters, lactones, amines and sulphur compounds are discussed. Special attention is given to the compounds of these groups that are actually important to the final aroma of roasted coffees.