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Gas Phase Structure Characterization Using Fourier Transform Ion Cyclotron Resonance Mass SpectrometryAnupriya, Anupriya 01 July 2016 (has links)
This dissertation investigates Fourier transform ion cyclotron resonance mass spectrometry (FTICR-MS) based techniques to study the impact of molecular structure on conformation and binding energetics. A novel method to determine collison cross sectional areas using FTICR (CRAFTI), initially developed by the Dearden lab, was applied to study the conformations of molecular systems with unique structural attributes in an attempt to explore the molecular range of CRAFTI. The systems chosen for CRAFTI studies include crown-ether alkylammonium complexes and biogenic amino acids. The results were found to be consistent with expected behavior, and strongly correlated with experimental measurements made using ion mobility spectrometry (IMS) and predictions from computations. The analytical sensitivity of CRAFTI was highlighted by its ability to distinguish the normal and branched structural isomers of butylamine. Besides conformation characterization, quantitative evaluation of binding was undertaken on metal ion-cryptand complexes on the FTICR instrument using sustained off-resonance irradiation-collision-induced dissociation (SORI CID) method. Complex formation and dissociation was found to be a strong function of both guest and host sizes which impacted steric selectivity, and polarizability. The results demonstrate the ability of FTICR to simultaneously determine structure, conformation and binding thereby providing comprehensive molecular characterization.
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Gas Phase Characterization of Supramolecules Using Cross-Sectional Areas by FTICR and Sustained Off-Resonance Irradiation Collision Induced Dissociation Techniques in a Fourier Transform Ion Cyclotron Resonance Mass SpectrometerYang, Fan 08 August 2012 (has links) (PDF)
In my dissertation, I use a Fourier Transform Ion Cyclotron Resonance Mass Spectrometer (FTICR-MS) to investigate supramolecules. Cross-sectional areas by Fourier transform ICR (CRAFTI), a novel technique for measurements of collision cross sections by FTICR, is demonstrated for the first time. The CRAFTI method measures the total "dephasing cross section" for removal of the ions from the coherent packet in the FTICR cell, including contributions not only from momentum transfer but also from reactive collisions including those leading to collisional dissociation. Experimental CRAFTI collision cross sections correlate linearly with theoretically computed results and with results obtained using ion mobility measurements. Different collision gases, including Xe, N2, Ar, and SF6, are all appropriate for the CRAFTI technique when the experiments are done at proper kinetic energies. The CRAFTI technique was applied to characterize the molecular shape of complexes of alkyl mono- and n-alkyldiamine with cucurbit[n]uril in the gas phase. The CRAFTI results are consistent with corresponding computational geometries. The CRAFTI technique was combined with SORI-CID (sustained off-resonance irradiation collision induced dissociation) for characterization of complexes of α,ω-alkyldiammonium with cucurbit[n]urils (n=5, 7 and 8) and cucurbituril derivatives. The results demonstrate that for bigger cucurbiturils, the complexes have the alkyldiamine tails threaded through the cavity of the host; for smaller cucurbiturils, the complexes have the tails of the alklydiamines external to the portal of the host.Capping molecules for larger CBn to form larger containers were also investigated. Using SORI-CID methods, CB7, a bigger cucurbituril cage, was found to form a more stable complex with Gu+ (guanidinium). Several neutral guests (benzene, fluorobenzene and toluene) were trapped in CB7 cavity to form inclusion complexes.
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Structures and Characteristics of Macromolecular Interactions in Gas Phase Using Fourier-Transform Ion Cyclotron Resonance Mass SpectrometryShen, Jiewen 09 December 2020 (has links)
This dissertation investigates non-covalent macromolecular chemistry using Fourier transform ion cyclotron resonance mass spectrometry (FTICR-MS) based techniques. The included studies reveal the impact of molecular structure on conformation and binding energetics. Supramolecules that might be too heavy to be dissociated in single collision-induced dissociation (CID) were dissociated using sustained off-resonance collision induced dissociation (SORI-CID) techniques. Relative binding energies and thresholds were evaluated for various macromolecular host-guest systems. Besides the non-covalent binding energies, conformation characterization was undertaken by a novel method to determine collision cross sectional areas using FTICR (CRAFTI, and multi-CRAFTI), initially developed by the Dearden lab. The systems chosen for further understanding of macromolecular interactions include calixarene-alkali metal complexes, cucurbit[5]uril-alkali halide complexes and cryptand-alkali metal complexes. The results were found to be consistent with expected behavior, and strongly correlated with predictions from computations. Size- and shape selectivity, as well as host-guest polarizability, are the main factors that govern the non-covalent macromolecular interactions that control complex conformation and dissociation. The results demonstrate the ability of FTICR to simultaneously determine binding energy, structure and conformation, which are the most important aspects for determination of comprehensive molecular characterization.
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Analyse d'oligonucléotides par bombardement d'électrons rapidesNguyen, Viet Hung 27 March 2012 (has links) (PDF)
L'objectif de ma thèse est d'étudier des oligonucléotides et mononucléotides par de nouvelles techniques de fragmentation comme l'EDD (Electron-Detachment-Dissociation) et l'EID (Electron-Induced-Dissociation) qui font intervenir un bombardement d'électrons. Les échantillons sont d'abord ionisés par une source electrospray (ESI) qui permet une ionisation douce. Au cours de mon travail de thèse, je me suis intéressé à l'étude de petits oligonucléotides (ADN et ARN simples brins) et de mononucléotides par EDD et EID. Tout d'abord nous optimisons les différents paramètres qui ont permis d'obtenir en ESI les espèces multichargées pour étudier les processus EDD, EID d'oligonucléotides à des états de charge différents, afin d'obtenir le maximum d'ions fragments. Ces spectres seront comparés avec les spectres SORI-CID (Collision-Induced-Dissociation) et IRMPD (Infrared-Multiphoton-Dissociation) pour mettre en évidence les spécificités de l'EDD et EID par rapport au SORI-CID. Les spectres EDD et EID montrent quelques ions fragments qui ne sont pas observés dans les spectres SORI-CID et IRMPD parce que ces derniers ne conduisent pas aux ions radicalaires. Grâce aux ions fragments radicalaires obtenus en EDD et en EID, nous avons pu accéder au séquençage d'oligonucléotides riches en thymine pour lesquels il est difficile d'obtenir des informations par les méthodes conventionnelles. Enfin nous avons utilisé des techniques particulières de la technologie ICR et qui seront présentées dans ce manuscrit
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