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21	Petroleômica : caracterização de petróleos nacionais por espectrometria de massas de altíssima resolução: que os compostos ácidos podem revelar sobre o petróleo / Petroleomics : characterization of Brazilian crude oils by ultra high resolution mass spectrometry: what acidic compounds can reveal about petroleum Pereira, Rosana Cardoso Lopes, 1959- 22 August 2018 (has links) Orientadores: Marcos Nogueira Eberlin, Eugenio Vaz dos Santos Neto / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-22T16:54:54Z (GMT). No. of bitstreams: 1 Pereira_RosanaCardosoLopes_D.pdf: 5832219 bytes, checksum: 88820b58f8b6360b78a6aa2f16ceb943 (MD5) Previous issue date: 2012 / Resumo: Este trabalho consistiu na aplicação de tecnologia que se encontra hoje na vanguarda do conhecimento: a Petroleômica via ESI FT-ICR MS, com o objetivo de caracterizar as mais diversas classes de compostos polares ácidos presentes em amostras representativas de óleos de bacias brasileiras. O propósito ambicioso foi o de focalizar aspectos relacionados à toda cadeia de valor da indústria do petróleo, desde a geração do óleo até o seu refino, visando contribuir para novos estudos de interesse às atividades de upstream e downstream da PETROBRAS e, principalmente, fomentar a integração dos conhecimentos das diferentes áreas, o que contribuirá para ganhos de produtividade da empresa. A técnica ESI FT-ICR-MS mostrou-se uma técnica rápida e adequada para acompanhar as alterações verificadas na composição de amostras de petróleo, fornecendo subsídios a partir de uma caracterização única, para estudos diversos, abrangendo toda a cadeia de valor da indústria do petróleo. As alterações composicionais de óleos e extratos obtidos em experimentos de maturação artificial por hidropirólise de matéria orgânica dos tipos I e III foram avaliadas, evidenciando o potencial da técnica para utilização em estudos cinéticos. O estudo de biodegradação utilizando trinta amostras de óleos da Bacia Potiguar evidenciou que a técnica é sensível as variações de composição dos compostos polares que ocorrem em função do processo de biodegradação, e as amostras puderam ser agrupadas de acordo com o grau de biodegradação através da utilização de ferramentas quimiométricas (PCA). A partir dos dados de caracterização obtidos por ESI FT-ICR MS, foi possível agregar informações úteis para o entendimento de comportamentos diferenciados frente à tendência de formação de emulsão/gel durante a produção e frente à corrosão durante o refino / Abstract: This work focuses on the application of a technology that is cutting edge: Petroleomics by ESI FT-ICR MS with the goal of characterizing the large variety of acidic polar compound classes present in representative petroleum samples from Brazilian basins. The ambitious proposal was to focus on aspects related to the whole petroleum industry chain, since crude oil generation up to its processing in refinery units, to contribute to state-of-the-art studies of interest to upstream and downstream activities in PETROBRAS and mostly to encourage the knowledge integration, i.e. to form or blend the information into a whole, to UNITE, accessing high levels of productivity. The ESI FT-ICR MS technique exhibits characteristics like fast response, resolution, selectivity and sensibility, which make it suitable to monitor the changes in composition of petroleum samples and because of its unique and comprehensive characterization attained, to help different studies in the whole petroleum industry chain. The compositional alteration observed in extracts and oils during artificial maturation experiments by hydrouspyrolysis of organic matter types I and III were evaluated showing the potential of the technique to kinetic studies. Biodegradation studies were performed on 30 petroleum samples from Potiguar Basin and the results showed that the technique is sensitive to the variations on the composition of the polar compounds that occur as a result of the biodegradation process, and additionally, that the samples can be grouped according to their biodegradation level by the use of chimiometric tools (PCA). Also from the characterization data from ESI FT-ICR MS analysis it was shown that very useful information can be provided to better understand the differences in the rheological and corrosion behaviors of petroleum samples / Doutorado / Quimica Analitica / Doutora em Ciências Petroleômica Petróleo Acidos naftenicos FT-ICR MS Óleo cru Petroleomics Petroleum Naphthenic acids FT-ICR MS Crude oil
22	Caractérisation moléculaire et élémentaire des produits pétroliers lourds / Molecular and elemental characterization of heavy petroleum products Desprez, Alain 19 November 2014 (has links) Les pétroles utilisés en raffinage étant de plus en plus lourds et chargés en métaux et hétéroélements, il est d’une grande importance pour les activités de raffinage de connaître la spéciation de ces espèces au sein des produits pétroliers et leurs comportements durant les procédés de raffinage. Afin d’apporter des réponses à cette problématique des techniques de caractérisation élémentaire et moléculaire ont été utilisées notamment par ICP MS Haute Résolution et FT ICR MS respectivement. Ces techniques analytiques sont appliquées à différents échantillons pétroliers provenant parfois de procédés de raffinage et les informations obtenues au niveau élémentaire et moléculaire sont utilisées de manières complémentaires pour améliorer notre compréhension des mécanismes se produisant au sein de nos échantillons durant les activités de raffinage. / The crude oils available for the refining industry are heavier and heavier and more concentrated in metals and heteroelements. It is thus of great importance to study the speciation of these species within the petroleum products and their behavior during the refining processes. To answer that problematic, elemental and molecular characterization techniques have been used, mainly High Resolution ICP MS and FT ICR MS for the elemental and molecular characterization respectively. The analytical techniques quoted are used for the analysis of several petroleum products sometimes originating from refining processes and the information obtained at the elemental and molecular level are combined to improve our understanding of the mechanisms occurring within our samples during refining activities. Pétrole Fractions lourdes ICP-MS FT ICR MS GPCickel, H Soufre Vanadium Nickel Hétéroatomes Crude oil Heavy fractions ICP-MS FT ICR MS GPC Sulfur Vanadium Nickel Heteroatom
23	Spectrométrie de masse FT-ICR bidimensionnelle, développements et applications / Two-dimensional FT-ICR mass spectrometry, developments and applications Bouclon, Julien 26 January 2018 (has links) La spectrométrie de masse fournit deux types d’informations : la masse moléculaire des molécules présentes dans un mélange, en une première expérience (MS), puis leurs structures après isolation suivie de fragmentation, obtenues une à une (MS/MS). La spectrométrie de masse FT-ICR bidimensionnelle permet d’obtenir toutes ces informations en une seule expérience, sans isolation, quelle que soit la complexité de l’échantillon. Le prix à payer est une faible résolution dans la dimension indirecte, pouvant être améliorée par une augmentation du temps d’analyse, mais qui semblait limiter cette technique à une simple curiosité scientifique.Le premier objectif est d’implémenter l’échantillonnage non uniforme (NUS) en FT-ICR MS 2D. Cette technique consiste en l’acquisition aléatoire du même nombre de points dans la dimension indirecte que lors d’une acquisition uniforme, mais sur une plage de t1max plus grande. Les points manquants sont ensuite reconstruits par des algorithmes, entrainant une augmentation significative de la résolution du signal sans perte de temps sur le spectromètre. La première étape est de créer un algorithme générant un échantillonnage aléatoire de distribution uniforme pour une couverture optimale de la plage de t1max. Les algorithmes de reconstruction ayant des difficultés à reconstituer des signaux de faible intensité quand le nombre de points non échantillonnés augmente, la deuxième étape est de déterminer le facteur de sous-échantillonnage optimal afin d’obtenir le bon compromis entre résolution et signal-sur-bruit. La troisième étape est de réaliser des spectres MS/MS ayant des massifs isotopiques corrects pour des fragments produits à partir des isotopes les plus lourds.Le deuxième objectif est de décrire le comportement des ions dans la cellule ICR en fonction des impulsions RF utilisées à partir des équations de Lorentz. Dans une première partie, le but est d’établir les équations qui régissent le mouvement des ions précurseurs jusqu’à leur détection. Ensuite, il s’agit d’introduire la fragmentation et de déterminer les solutions analytiques décrivant le mouvement des fragments. La dernière étape est de simuler le comportement des ions précurseurs tout au long de la séquence d’impulsions ainsi que celui des nuages de fragments, de leur formation à leur détection. / Mass spectrometry provides two kinds of information: the molecular mass of molecules present in a mixture, obtained all at once (MS), and structure through isolation and fragmentation, obtained one by one (MS/MS). Two-dimensional FT-ICR MS allows simultaneous parallel acquisition of structural information without isolation, regardless of the number of molecules. Nevertheless, the low resolution in the indirect dimension, which could be improved by increasing the acquisition time, seemed to limit this method to a simple curiosity. The first objective is to implement non-uniform-sampling (NUS) in 2D FT-ICR MS. This method consist in the random acquisition of the same number of points in the indirect dimension as in uniform acquisition, but over a wider t1max range. Processing algorithms then reconstruct skipped points, and the result is an increase of signal resolution without wasting analysis time. The first step is to create an algorithm that can generate random sampling with a uniform distribution for an optimal coverage of the t1max range. Processing algorithms may have trouble to reconstruct small peaks when the number of skipped points increases. The second step is to choose the under-sampling ratio for the best compromise between the gain in resolution and the signal-to-noise ratio. The third and last step is to obtain MS/MS spectra with corrects isotopic patterns for fragments produced from heavy isotopes. The second objective is to improve the understanding of ion motions in ICR cells depending on the RF pulses by using Lorentz equations. The first goal is to determine the equations governing precursors motions until their detection. Then the fragmentation will be introduced and analytical solutions describing fragments motions will be established. The last step is to simulate the trajectories of precursors throughout the entire pulse sequence as well as the behavior of fragments clouds, from their formation to detection. Spectrométrie de masse FT-ICR Bidimensionnel Echantillonnage non uniforme Trajectoires d'ions Simulations Mass spectrometry FT-ICR Two-Dimensional Non-Uniform sampling Ions motions Simulations 541.3
24	Approche métabolomique dans l'analyse de l'évolution oxydative des vins en spectrométrie de masse à très haute résolution / Metabolomic approach in the analysis of the oxidative evolution of wines using high resolution mass spectrometry Boutegrabet, Lemia 13 June 2012 (has links) Tout au long du procédé d’élaboration d’un vin, des réactions d’oxydation peuvent se produire y compris au cours du vieillissement en bouteilles. Depuis quelques années, la profession viti-vinicole est confrontée au problème de l’oxydation prématurée des vins blancs.. A ce jour, peu d’études ont pu apporter des explications d’ordre chimique à ce phénomène, et les mécanismes réactionnels intervenant restent peu connus.L’objectif de ce travail de thèse est d’apporter, au travers d’une analyse moléculaire non ciblée en spectrométrie de masse à transformée de Fourier et à résonance cyclotronique des ions (FT-ICR-MS) couplée à une étude chimiométrique, des réponses originales aux questions posées par la problématique actuelle d’oxydation prématurée des vins blancs. Nous avons montré suite à l’étude d’une série de vins oxydés prématurément non seulement la grande diversité chimique des vins, mais aussi la présence d’un ensemble de masses typiques associées à ce phénomène. Pour une meilleure compréhension de l’origine de cette problématique, nous avons considéré deux autres types d’oxydation : une oxydation relative exclusivement à un apport contrôlé en oxygène et une autre relative à l'évolution naturelle de vins en bouteilles. Cette dernière consiste en le suivi de l'évolution des espaces chimiques de séries verticales de vins blancs et rouges en fonction du temps. Sur la série verticale des vins blancs allant de 1979 à 2006, une charnière à l’année 1990 a été observée avec des groupes de masses typiques de chacun des vins jeunes (1979-1990) et des vieux vins (1991-2006).La comparaison entre les espaces chimiques discriminants chacun de ces trois types d’oxydation ne révèle la présence que de trois masses en commun, ce qui appuie l'hypothèse de causes multiparamétriques à l’oxydation prématurée des vins blancs, qui ne serait donc pas un phénomène du exclusivement à une exposition non contrôlée à l'oxygène.Des essais d’élucidation structurale en FT-ICR-MS/MS des masses discriminantes des vins oxydés et de la série verticale ont été effectués et des schémas de fragmentation pour certaines masses sont proposés / During winemaking processes, many oxidation reactions may occur especially during the aging period. Recently, white wines are characterized by a problem of premature oxidation for which few studies have provided chemical explanation. To date, the involved mechanisms in this phenomenon remain poorly understood.The aim of this thesis project is to provide, through an untargeted molecular analysis using Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR-MS) coupled to chemometric analysis, original clue to understand the premature oxidation of white wines. Based on the study of a series of premature oxidized white wines, we were able to elucidate the high complexity and the chemical diversity of wine, and got out typical masses characterizing the oxidation state. In order to better understand the origin of this phenomenon, we considered two alternative possibilities of oxidation: the first one induced by oxygen, and the second through a natural evolution of wines in bottles. The latter included the monitoring of the chemical evolution of white and red wines as a function of time. A very interesting result was obtained on the vertical series of white wines from 1979 to 2006, where two groups were separated at the 1990 vintage to provide a group of old wines (1979-1990) and a group of new wines (1991-2006). Typical discriminant masses were found for each group.A comparison between the chemical spaces discriminating each of the three types of oxidation (premature oxidation, oxidation with oxygen and natural evolution of wine in bottle) revealed very few common masses that may indicate that the phenomenon of premature oxidation is indeed influenced by multiple factors.Finally, a structural elucidation of the typical masses of the groups of oxidized and aged wines were established using FT-ICR-MS/MS. Possible fragmentations schemes of some of these masses were proposed FT-ICR-MS MS/MS Oxydation Vin blancs Vieillissement Analyse statistique Métabolome FT-ICR-MS MS/MS Oxidation White wines Aging Chemometric analysis Metabolomics 541.39 543 641.22
25	Hydrogen / Deuterium Exchange and Fragmentation of Biomolecules to Probe Gas Phase Structure and Energetics Herrmann, Kristin Ann January 2005 (has links) Presented in this dissertation are FT-ICR H/D exchange and fragmentation studies of protonated peptides for the purpose of better understanding gas phase conformation and protonation motifs, and their affect on fragmentation patterns. In addition, a new ion activation method is developed to enhance the abundance of higher energy fragmentation pathways, thereby providing additional structural and/or mechanistic information.Studies to probe the relay mechanism of H/D exchange in small, model peptides found that residue position, proline configuration, and availability of the termini have a measurable effect on the H/D exchange behavior reflective of different conformation / protonation motifs.Charge remote cleavage C-terminal to aspartic acid was studied with the fixed charge derivative tris(2,4,6-trimethoxyphenyl) phosphonium (tTMP-P+). Ab initio calculations demonstrate that tTMP-P+ cannot activate the proposed aspartic acid nucleophile, the acidic side chain hydrogen initiates cleavage. Despite the absence of an ionizing proton, the derivatized peptide P+LDIFSDF (where P+ = tTMP-P+) exchanges three acidic hydrogens for deuterium. This supports the proposed aspartic acid cleavage mechanism that occurs without the direct involvement of an ionizing proton because acidic protons are able to participate in H/D exchange in the absence of an added proton. In addition, H/D exchange of P+LDIFSDF analogues provides insight into the sites and mechanisms of H/D exchange.H/D exchange to separate distinct peptide populations with differing rates and their subsequent fragmentation demonstrate that conformation / protonation motif affects the fragmentation spectrum observed. Studies of [P+LDIFSDF + H]2+, [RPPGFSPFR + 2H]2+ (bradykinin), and [RVYIFPF + 2H]2+ show that at least two distinct structures exist with different rates of H/D exchange and different fragmentation patterns. The overall MS/MS spectrum is a linear combination of all conformations and protonation motifs. In addition, fragmentation of labeled populations suggests that complementary bn+ / ym-n+ ion pairs are being formed from doubly-charged precursor by the same mechanism.SORI-RE CID is a new FT-ICR ion activation method based on the combination of sustained off-resonance irradiation (SORI) and on-resonant excitation (RE) with the purpose of enhancing higher energy fragmentation while maintaining low energy processes. The experiments presented serve to illustrate the usefulness of SORI-RE in diverse cases. peptide fragmentation mass spectrometry mechanisms Hydrogen / Deuterium Exchange FT-ICR SORI-RE
26	Molecular-scale characterisation of humic substances using isotope-filtered nD NMR spectroscopy Bell, Nicholle Georgina Anneke January 2016 (has links) Humic substances (HS), the complex mixture of organic molecules produced by microbial and abiotic degradation of plant and animals residues, are the major components of organic matter in soil and natural waters. As such, they are vital to the integrity of soil, play important roles in nutrient biogeochemical cycling and determine the mobility and fate of both nutrients and contaminants. How HS enact their varied roles, however, is largely unknown due to the lack of comprehension of their molecular make-up. What is known is that they contain aromatic (e.g. phenols, condensed aromatics) and aliphatic (e.g. carbohydrates, lipids) molecules with prevailing carboxyl and hydroxyl functionalities. As for other complex chromatographically inseparable mixtures, high-resolution analytical techniques such as Fourier Transform Ion Cyclotron Resonance Mass Spectrometry (FT-ICR MS) as well as Nuclear Magnetic Resonance (NMR) spectroscopy have been applied to study HS composition at the molecular level. While FT-ICR MS can provide molecular formulae, it is only NMR that can unveil structures. Until now, however, very few unambiguous structures of individual molecules have emerged from standard NMR experiments. This is because purposely designed multidimensional NMR experiments are required to achieve ‘spectroscopic separation’ where chromatography fails. In this work, ‘spectroscopic separation’ was accomplished with the aid of chemical modification in the form of 13C methylation of COOH and OH groups. 13C containing tags allow the observation of signals only from molecules carrying these tags. In combination with purposelydesigned isotope-filtered NMR experiments, these tags act as spies reporting on their surrounding structure. This is achieved by utilising scalar and dipolar couplings to transfer the polarisation between protons and carbons of the 13CH3O groups and nuclei of the parent molecules. The necessary spectral resolution is attained using 3D/4D NMR experiments. This approach provides access to an array of correlated chemical shifts of HS molecules and represents a paradigm shift in the use of tags in investigations of complex mixtures: instead of focusing only on the tags, they are used to obtain structural information from the molecules they are attached to. The compounds at the centre of this investigation are the phenols of HS. These molecules are thought to be important in many of the key processes in organic matter rich soils, particularly peat. For example, their accumulation is thought to impair the activity of extracellular enzymes essential for the degradation of peat HS. Understanding the nature and source of phenols would provide a more fundamental framework for rationalising their role in peat, as well as other carbon rich soils. The developed methodology was initially tested on model mixtures containing 3 or 9 phenolic compounds before applying it to a operational fraction of HS, fulvic acid, extracted from a Scottish raised peat bog. For this fulvic acid, over 30 major phenolic molecules/moieties were identified, many of which can be directly traced to the flora prevalent in the vicinity of the sampling site. For the first time in 150 years of HS research, a novel analytical methodology has yielded unambiguous structural information, providing the first steps towards understanding the various roles of HS in natural systems. 631.4
27	Caractérisation de toxines peptidiques par spectrométrie de masse à haute résolution. Quinton, Loïc 28 September 2006 (has links) (PDF) PARMI LES DIFFERENTES SOURCES NATURELLES DE COMPOSES BIOLOGIQUEMENT ACTIFS, LES VENINS REPRESENTENT, DE PAR LA GRANDE VARIETE DE LEURS CONSTITUANTS, UNE CIBLE DE CHOIX POUR LA RECHERCHE MEDICALE. LES TOXINES QU'ILS CONTIENNENT SONT VARIEES ET COMPRENDRE LEUR MODE D'ACTION DANS LE BUT DE SYNTHETISER DES ANALOGUES D'INTERET PHARMACOLOGIQUE PASSE PAR UNE DETERMINATION PRECISE DE LEUR STRUCTURE CHIMIQUE AVEC LA CONTRAINTE QUE LA FAIBLE QUANTITE DE MATERIEL GENERALEMENT DISPONIBLE REND L'ENSEMBLE DES PROCESSUS DE SEPARATION ET DE CARACTERISATION TRES DELICAT. C'EST DANS CE CONTEXTE QUE SE SITUE CETTE THESE DONT L'OBJECTIF A ETE DE METTRE AU POINT DE NOUVELLES STRATEGIES D'ANALYSE PAR SPECTROMETRIE DE MASSE A HAUTE RESOLUTION DE NOUVELLES TOXINES PEPTIDIQUES. CETTE THESE A PARTICULIEREMENT CIBLE L'ETUDE DE TOXINES PEPTIDIQUES DE CONES (MOLLUSQUES UTILISANT UN HARPON VENIMEUX POUR ATTEINDRE ET PARALYSE! R LEUR PROIE) ET DE SERPENTS. AU FINAL, LA SPECTROMETRIE DE MASSE A HAUTE RESOLUTION S'EST REVELEE COMME UN OUTIL TRES PUISSANT POUR LA CARACTERISATION DE PETITES TOXINES MODIFIEES PAR SES GRANDES CAPACITES EN TERMES DE PRECISION SUR LA MESURE DE MASSE MAIS AUSSI DANS L'ETUDE DE PLUS GROSSES TOXINES POUR LESQUELLES LA RECENTE TECHNIQUE DE DISSOCIATION PAR CAPTURE D'ELECTRON S'EST MONTREE DES PLUS PERFORMANTES. [CHIM] Chemical Sciences Toxines Spectrometrie de masse Haute resolution Ft-icr Conotoxines Sarafotoxines Sequencage de novo
28	Development and implementation of a FT-ICR mass spectrometer for the investigation of ion conformations of peptide sequence isomers containing basic amino acid residues by gas-phase hydrogen/deuterium exchange Marini, Joseph Thomas 30 September 2004 (has links) The gas-phase hydrogen/deuterium (H/D) exchange of protonated di- and tripeptides containing a basic amino acid residue has been studied with a Fourier transform ion cyclotron resonance (FT-ICR) mass spectrometer. Bimolecular reactions are monitored as a function of time providing exchange efficiencies and temporal distributions for the peptide ions. Results from these experiments indicated that position of the basic residue within the peptide (i.e. N-terminal, internal, or C-terminal) influences gas-phase H/D exchange, suggesting unique peptide ion conformations. The FT-ICR mass spectrometer employed for these gas-phase H/D exchange studies was modified from its original design. Instrument modifications include development of an internal matrix assisted laser desorption ionization (MALDI) source for peptide protonation. In addition, a two-section cell was utilized, allowing control of ion motion and factors affecting gas-phase ion molecule reactions. Systems investigated in these gas-phase H/D exchange studies are peptides containing the same amino acid residues but different sequences. These sequence isomers display dissimilar reaction efficiencies and temporal distributions for deuterium incorporation depending on the primary structure of the peptide ion. Specifically, [M+H]+ peptide ions containing a N-terminal basic residue demonstrate unique H/D exchange behavior when compared to their internal and C-terminal counterparts. These differences are attributed to dissimilar intramolecular bridging interactions involved with inductive stabilization of the charge site. Gas-phase H/D exchange of peptide sequence isomers was also probed with various deuterium reagents. Findings suggest that different reagents also influence H/D exchange reaction rate efficiencies and temporal distributions. These dissimilarities are ascribed to relative gas-phase basicity and proposed mechanistic exchange differences for the deuterium reagents. H/D Exchange FT-ICR mass spectrometry basic amino acid residue oligopeptide conformations
29	Development and implementation of a FT-ICR mass spectrometer for the investigation of ion conformations of peptide sequence isomers containing basic amino acid residues by gas-phase hydrogen/deuterium exchange Marini, Joseph Thomas 30 September 2004 (has links) The gas-phase hydrogen/deuterium (H/D) exchange of protonated di- and tripeptides containing a basic amino acid residue has been studied with a Fourier transform ion cyclotron resonance (FT-ICR) mass spectrometer. Bimolecular reactions are monitored as a function of time providing exchange efficiencies and temporal distributions for the peptide ions. Results from these experiments indicated that position of the basic residue within the peptide (i.e. N-terminal, internal, or C-terminal) influences gas-phase H/D exchange, suggesting unique peptide ion conformations. The FT-ICR mass spectrometer employed for these gas-phase H/D exchange studies was modified from its original design. Instrument modifications include development of an internal matrix assisted laser desorption ionization (MALDI) source for peptide protonation. In addition, a two-section cell was utilized, allowing control of ion motion and factors affecting gas-phase ion molecule reactions. Systems investigated in these gas-phase H/D exchange studies are peptides containing the same amino acid residues but different sequences. These sequence isomers display dissimilar reaction efficiencies and temporal distributions for deuterium incorporation depending on the primary structure of the peptide ion. Specifically, [M+H]+ peptide ions containing a N-terminal basic residue demonstrate unique H/D exchange behavior when compared to their internal and C-terminal counterparts. These differences are attributed to dissimilar intramolecular bridging interactions involved with inductive stabilization of the charge site. Gas-phase H/D exchange of peptide sequence isomers was also probed with various deuterium reagents. Findings suggest that different reagents also influence H/D exchange reaction rate efficiencies and temporal distributions. These dissimilarities are ascribed to relative gas-phase basicity and proposed mechanistic exchange differences for the deuterium reagents. H/D Exchange FT-ICR mass spectrometry basic amino acid residue oligopeptide conformations
30	Towards an Understanding of Dissolved Organic Matter Molecular Composition and Reactivity in the Environment Cottrell, Barbara 07 January 2014 (has links) Dissolved organic matter (DOM), one of the most complex naturally occurring mixtures, plays a central role in the biogeochemistry and the photochemistry of natural waters. A complete understanding of the environmental role of DOM will come only from the elucidation of the relationship between its structure and function. This thesis presents new work on the separation, characterization, and reactivity of DOM in rainwater, freshwater, and seawater. A new separation technique based on counterbalance capillary electrophoresis was developed for the separation of Suwannee River NOM. A comparative study of the organic content of rainwater was accomplished using nuclear magnetic resonance (NMR) with spectral database matching ,Fourier transform ion cyclotron mass spectrometry (FT-ICR-MS), and comprehensive two-dimensional gas chromatography time-of-flight mass spectrometry (GCxGC-TOFMS). Three complementary, non-overlapping datasets identified of over 400 compounds. Analysis of the FT-ICR-MS data using van Krevelen diagrams and the carbon oxidation state showed variation in the elemental composition and molecular size. Over 50% of the compounds identified in this study were known components of secondary organic aerosol (SOA) and volatile organic carbon (VOCs). Dissolved organic matter (DOM) plays a central role in the photochemistry of natural waters through the production of reactive oxygen species and the triplet excited state of DOM (3DOM). These reactive species are central to the reactivity, transport, and fate of both natural and anthropogenic chemicals in the environment. Laser flash photolysis (LFP) was used to demonstrate that particulate organic matter (POM) generates a triplet excited state species (3POM). LFP of seawater from the Pacific Ocean and the Bermuda Atlantic Time Series Station detected similar excited state species from surface to 4535m. Metal speciation has been implicated in the photochemistry of natural waters. Copper immobilized metal affinity chromatography (IMAC) of seawater and freshwater isolated a low and a high affinity fraction that generated excited state transients. Excitation-emission matrix spectroscopy showed that while the seawater fractions were autochthonous, freshwater fractions enriched in chromophoric DOM (CDOM), were allochthonous. The discovery of these different classes of compounds in freshwater and seawater has important implications both for the mineralization of DOM and the removal of xenobiotics in the aquatic environment. Dissolved organic matter Photochemistry NMR FT-ICR-MS GCxGC-TOFMS 0425

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