Spelling suggestions: "subject:"electrospray ionization"" "subject:"électrospray ionization""
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Desorption Electrospray Ionization Mass Spectrometry Imaging: Instrumentation, Optimization and CapabilitiesDhunna, Manan 13 March 2014 (has links) (PDF)
Desorption Electrospray Ionization Mass spectrometry Imaging (DESI-MSI) is an area of great interest and a promising tool in the field of chemical imaging. It is a powerful, label-free technique, which can determine, map and visualize different molecular compounds on a sample surface. The amount of information acquired in a single DESI-MSI experiment is enormous compared to other techniques, as it can simultaneously detect different compounds with their spatial distribution on the surface. The experiment can be used to produce two-dimensional and three-dimensional images. Chapter 2 focuses on the design and optimization of the setup for performing DESI-MS imaging on various substrates. The proposed setup was tested for its lateral spatial resolution. To provide proof-of-concept of the design, preliminary tests were performed to generate images from commercial thin layer chromatographic plates and photographic paper. Chapter 3 focuses on demonstrating the compatibility of novel microfabricated Thin Layer Chromatography plates (M-TLC plates) for detection with DESI-MSI.
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Statistical Analysis Of Visible Absorption Spectra And Mass Spectra Obtained From Dyed Textile FibersWhite, Katie Margaret 01 January 2010 (has links)
The National Academy of Sciences recently published a report which calls for improvements to the field of forensic science. Their report criticized many forensic disciplines for failure to establish rigorously-tested methods of comparison, and encouraged more research in these areas to establish limitations and assess error rates. This study applies chemometric and statistical methods to current and developing analytical techniques in fiber analysis. In addition to analysis of commercially available dyed textile fibers, two pairs of dyes are selected based for custom fabric dyeing on the similarities of their absorbance spectra and dye molecular structures. Visible absorption spectra for all fiber samples are collected using microspectrophotometry (MSP) and mass spectra are collected using electrospray ionization (ESI) mass spectrometry. Statistical calculations are performed using commercial software packages and software written in-house. Levels of Type I and Type II error are examined for fiber discrimination based on hypothesis testing of visible absorbance spectra using a nonparametric permutation method. This work also explores evaluation of known and questioned fiber populations based on an assessment of p-value distributions from questioned-known fiber comparisons with those of known fiber self-comparisons. Results from the hypothesis testing are compared with principal components analysis (PCA) and discriminant analysis (DA) of visible absorption spectra, as well as PCA and DA of ESI mass spectra. The sensitivity of a statistical approach will also be discussed in terms of how instrumental parameters and sampling methods may influence error rates.
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GAS-PHASE STUDIES OF METAL IONS IN BIOMOLECULE IONSNicole Michelle Brundridge (18290698) 03 April 2024 (has links)
<p dir="ltr">Metal ions are typically considered a nuisance for mass spectrometry, as they can introduce chemical noise and distribute an analyte’s signal into multiple peaks. In some cases however, metal ions in biological solutions are either necessary for biomolecular structures, or so ubiquitous in a sample’s native solution conditions that they are difficult to fully remove. In this work, the role of metal ions in biological analytes is explored. For analytes that require metal ions to maintain higher order structures, a mass spectrometry method was developed to determine whether a stable structure is formed from metal ion adducts, or if the metal ion adducts are nonspecifically bound. Electron transfer of these structures reveals complementary fragmentation information, with the added discovery of new radical fragmentation pathways. With mass spectrometry, specific ligand and metal ion affinities can even be determined for analytes at low enough concentrations. In addition to analytes that require metals, an exploration on unwanted metal ion adduction during the electrospray ionization process is shown via gas-phase ion/ion reactions. Observing how specific anionic ligands exchange metals with protons from proteins on a small and controlled scale gives a greater understanding of what solutions can lead to the cleanest results. In addition, this work shows the possibility of finding anionic ligands that will instead exchange protons with metal ions found on proteins. In the gas-phase, these experiments have a high degree of control, leading to a much greater understanding of how metal ions influence mass spectrometry samples.</p>
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A proteomic approach to the identification of cytochrome P450 isoforms in male and female rat liver by nanoscale liquid chromatography-electrospray ionization-tandem mass spectrometry.Nisar, S., Lane, C.S., Wilderspin, A.F., Welham, K.J., Griffiths, W.J., Patterson, Laurence H. January 2004 (has links)
No / Nanoscale reversed-phase liquid chromatography (LC) combined with electrospray ionization-tandem mass spectrometry (ESI-MS/MS) has been used as a method for the direct identification of multiple cytochrome P450 (P450) isoforms found in male and female rat liver. In this targeted proteomic approach, rat liver microsomes were subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by in-gel tryptic digestion of the proteins present in the 48- to 62-kDa bands. The resultant peptides were extracted and analyzed by LC-ESI-MS/MS. P450 identifications were made by searching the MS/MS data against a rat protein database containing 21,576 entries including 47 P450s using Sequest software (Thermo Electron, Hemel Hempstead, UK). Twenty-four P450 isoforms from the subfamilies 1A, 2A, 2B, 2C, 2D, 2E, 3A, 4A, 4F, CYP17, and CYP19 were positively identified in rat liver.
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Palladium(II)-Catalysed Heck and Addition Reactions : Exploring Decarboxylative and Desulfitative ProcessesSkillinghaug, Bobo January 2016 (has links)
Palladium complexes have the ability to catalyse cross-coupling of two organic moieties through the formation of transient metal-carbon bonds, thus bringing them closer to each other to facilitate the formation of a new bond. Palladium-catalysed coupling reactions are one of the most important carbon-carbon forming reactions available to organic chemists and many of these reactions rely on the reactivity of aryl-palladium complexes. The investigation of new aryl-palladium precursors is thus of great interest, especially as more sustainable and economic methods can be developed. This thesis describes the use of carboxylic acids and sodium arylsulfinates as such new arylating agents. Protocols for microwave-assisted palladium(II)-catalysed decarboxylative synthesis of electron-rich styrenes and 1,1-diarylethenes were developed. However, these transformations had very limited substrate scopes which prompted the investigation of sodium arylsulfinates as alternative arylating agents. These substrates were employed in the microwave-assisted palladium(II)-catalysed desulfitative addition to nitriles, and the substrate scope was demonstrated by combining a wide array of sodium arylsulfinates and nitriles to yield the corresponding aryl ketones. The application of the desulfitative reaction in a continuous flow setup was demonstrated, and aluminium oxide was identified as safe alternative to borosilicate glass as a reactor material. The mechanisms of the decarboxylative and desulfitative transformations were investigated by density functional theory (DFT) calculations. The desulfitative reaction was also investigated by direct electrospray ionization mass spectrometry (ESI-MS), providing further mechanistic insight. Finally, a protocol for the safe and convenient synthesis of a wide range of sodium arylsulfinates was developed.
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Ambient Ionization Mass Spectrometry: Advances in Monitoring Clandestine Activities, Supporting the Warfighter, and Chemical Laboratory Education RedevelopmentPatrick W. Fedick (5929664) 03 January 2019 (has links)
<p>Ambient ionization mass
spectrometry enables rapid <i>in-situ</i>
analysis of a plethora of analytes that are relevant to the forensic and
defense communities. As the arsenal of ambient ionization techniques, aimed at
solving specific targeted problems, continues to expand, the adoption of these
techniques into non-academic settings has been relatively slow. At times,
although the technique can provide answers in a more rapid and cheaper manner,
the technique does not pass all of the required legal rules for a particular
analysis when dealing with forensic evidence. This can be demonstrated with the
rapid detection of drugs by paper spray ionization mass spectrometry. Paper
spray ionization mass spectrometry can have drugs deposited onto the paper substrate,
the paper can wipe a surface for trace analytes, and there are commercial and
automated ionization sources for this process. While analysis by paper spray is
rapid, the Scientific Working Group for the Analysis of Seized Drugs (SWGDRUG)
states that a minimum of two instrumental techniques need to be utilized. Utilizing
paper substrates that have nanoparticles embedded for surface enhanced Raman
spectroscopy, that can also be utilized for paper spray ionization mass
spectrometry, makes ambient ionization more appealing as it completes that
first legal requirement. </p>
<p>Other times, the slow
adoption of these new ambient ionization techniques is due to specific communities
not being aware of ambient ionization, and specific applications have not yet been
demonstrated. Swab touch spray ionization mass spectrometry follows similar
processes as paper spray ionization, as the swab acts both as the sampling
substrate and the ionization source and can swab for analytes in a manner where
the paper substrate may be damaged and unable to perform the ionization for
analysis. This can be seen for the swabbing of organic gunshot residues and
explosives, both of which current methods already use a swab for sampling but
then need lengthy extraction techniques. The applicability of paper spray
ionization and swab touch spray ionization for these forensic and defense
analyses is only furthered by the fact that they both couple extremely well
with portable mass spectrometers for analysis in the field.</p>
<p>There are also many
fields that ambient ionization is just starting to take its place in the
analytical toolbox. Two such defense fields that are just beginning to expand
into ambient ionization are the analysis of pyrotechnics and microelectronics.
Pyrolysis gas-chromatography mass spectrometry methods have been developed and
utilized for environmental tests for pyrotechnic formulation, but they are slow
and there is an abundance of cleaning steps between analyses to prevent carry
over and contamination. Using paper and swabs as the collection device and
ionization source for environmental analysis of these pyrotechnics allow for
them to be functioned at ambient conditions at the scale at which will be
utilized in the field by the Warfighter. Similarly, authenticating
microelectronics by desorption electrospray ionization mass spectrometry
removes the subjectivity of the current methods, while rendering the integrated
circuit intact enabling future use if deemed as a genuine part. By taking
slower or more subjective tests, in a field that has not utilized ambient
ionization heavily in the past and adding these new capabilities to their tool
chest expands the acceptance and future applications of the technique.</p>
<p>As acceptance and
utilization of ambient ionization grows, the next generation of scientists need
to have hands on training in these techniques. Through the development of new
teaching laboratories that couple both the fundamentals of the technique at
hand, while also examining an interesting application to better engage the
students, a number of laboratory exercises have been developed. The creation of
new laboratory exercise utilizing the next generation of instrumentation and
analytical techniques is vital for the future and rapid application of these
techniques. The work discussed herein chronicles the utilization and
demonstration of ambient ionization mass spectrometry in monitoring clandestine
activities, supporting the Warfighter, and redeveloping chemical laboratory education.
</p>
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Développement d’une approche analytique pour la caractérisation du sélénoprotéome in vivo / Development of analytical methodology for selenoproteomicsBianga, Juliusz 21 February 2013 (has links)
Le sélénium est un micronutriment essentiel pour des nombreux organismes vivants, y compris l’homme. Son rôle est lié à sa présence dans des sélénoprotéines sous forme d’un acide aminé, génétiquement encodé – la sélénocystéine. Il y a 25 sélénoprotéines encodées dans le génome humain. Leurs fonctions, la cinétique et la hiérarchie d'expression se trouvent au cœur des problématiques de recherche concernant le sélénium et la santé humaine. Il existe également un autre type de protéines où le sélénium est inséré par un remplacement partiel du soufre dans la méthionine mais aussi, potentiellement, dans la cystéine. Ces protéines suscitent l’intérêt dans les sciences de nutrition comme source de sélénium biodisponible dans l’alimentation naturelle et supplémentée. L'objectif de cette thèse a été la mise au point de méthodologies analytiques visant la spéciation du sélénium incorporé dans les protéines à l’échelle du protéome entier. Une procédure inédite a été développée pour la détection globale de protéines séléniées dans des gels d’électrophorèse bidimensionnelle par l’imagerie d’ablation laser ICP MS (spectrométrie de masse plasma à couplage inductif) permettant de s’affranchir de l’utilisation de l’isotope radioactif 75Se. Les autres avancées comprennent la mise en place d’un couplage robuste de HPLC capillaire avec l’ICP MS pour la détection des sélénopeptides dans des microvolumes de digestats trypsiques des protéines extraites du gel ainsi que la mise en place des protocoles d’identification des protéines séléniées par la spectrométrie de masse électrospray en tandem utilisant la trappe orbitale (Orbitrap). Les méthodes développées ont permis (i) la caractérisation de la part du protéome sélénié contenant la sélénocystéine chez la levure séléniée, (ii) l’identification des protéines majeures qui accumulent le sélénium dans le blé, et (iii) le dosage semi quantitatif et la caractérisation globale des sélénoprotéomes (GPx1, GPx4, TRxR1, TRxR2, Sel15kDa) dans les lignées cellulaires. / Selenium is an essential micronutrient for many living organisms including man. Its role is related to selenoproteins which contain genetically encoded selenocysteine. There are 25 selenoproteins encoded in the human genome. Their function, expression kinetics and hierarchy have been a topic of intense research in life sciences. There is another type of proteins which contain selenium inserted non-specifically by partly replacing sulphur in methionine and, potentially, cysteine. They are of interest in nutrition science as source of bio-available selenium in natural and supplemented foods. The goal of this Ph.D. was the development of methodologies for the analysis of selenium-containing proteins on the entire proteome scale. A novel procedure was developed for their global detection in 2D electrophoretic gels par laser ablation inductively coupled plasma mass spectrometry (ICP MS) imaging permitting to avoid the use of the radioactive 75Se. The other developments included (i) a robust capillary HPLC – ICP MS coupling allowing the detection of Se-containing peptides in microliter volumes of the digests of proteins extracted from the gel and (ii) protocols allowing the targeted identification of the Se-containing proteins by a parallel capillary HPLC - electrospray Orbitrap MS/MS. The methods developed allowed (i) the characterisation of the selenocystein-containing part of the selenoproteome of Se-enriched yeast, (ii) identification of the major Se-accumulating proteins in wheat, and (iii) semiquatitive analysis and global identification of the selenoproteomes (GPx1, GPx4, TRxR1, TRxR2, Sel15kDa) expressed in different human cell lines.
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Method Development in Quantitative and Structural Proteomics using Fourier Transform Ion Cyclotron Resonance Mass SpectrometryHagman, Charlotte January 2005 (has links)
<p>In this thesis, methods for studying different aspects of proteomics were developed with Fourier Transform Ion Cyclotron Resonance, (FTICR), mass spectrometry. The FTICR technique provides ultra-high mass resolving power, mass accuracy at sub ppm level and sensitivity in the attomole region.</p><p>Methods for quantifying biomarkers in body fluids such as cerebrospinal fluid, (CSF), and plasma were developed. Two sets of global markers with different properties were used for quantitative analysis; S-Methyl Thioacetimidate, (SMTA), and S-Methyl Thiopropionimidate, (SMTP), and [H<sub>4</sub>]- and [D<sub>4</sub>]-1-Nicotinoyloxy succinimide ester. Reduced ion suppression and higher sensitivity was obtained by coupling a High Performance Liquid Chromatography, (HPLC), system to the FTICR mass spectrometer.</p><p>In body fluids, proteins and peptides are present in a broad dynamic concentration range. Therefore, depleting abundant proteins prior to analysis results in decreased ion suppression and increased sensitivity. Two commercial depletion kits were evaluated with the SMTA- and SMTP-markers.</p><p>For both types of global markers, the experimental error for quantitative analysis of abundant proteins was less than 30%. This provides a lower limit for the protein up- and down regulations in complex solutions that can be monitored with HPLC-FTICR mass spectrometry.</p><p>Together with the identity and quantity of selected proteins the structure, dynamics and interactions with other molecules are of great importance. The later can be elucidated with Hydrogen/Deuterium Exchange, (HDX), mass spectrometry. Structural information at high resolution can be obtained with Collision-Induced Dissociation, (CID), HDX mass spectrometry. In this thesis, exchange rates of amide hydrogens in peptides were in excellent agreement with NMR results.</p><p>In some cases, the CID-fragments have different gas-phase exchange properties and as a consequence the solution phase exchange process can not be monitored. By applying Electron Capture Dissociation, (ECD), at ultra-high vacuum, the exchange process at a specific residue could be monitored.</p>
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Analysis of Complex Biological Samples using Liquid Chromatography-Fourier Transform Ion Cyclotron Resonance Mass SpectrometryRamström, Margareta January 2005 (has links)
<p>Studies of protein and peptide expression are vital in order to understand complex biological systems. As demonstrated in this thesis, on-line packed capillary liquid chromatography-Fourier transform ion cyclotron resonance mass spectrometry (LC-FTICR MS) is a useful analytical tool for such studies.</p><p>A proteomics method, based on global tryptic digestion and subsequent separation and detection of the peptides by LC-FTICR MS, was developed for qualitative analysis of body fluids. Initial experiments on cerebrospinal fluid (CSF) provided results that were comparable or superior to those achieved by more time- and sample-consuming techniques. The method was also successfully applied on plasma and amniotic fluid. One of the major challenges in proteomics is the broad dynamic range of proteins in biological matrices. The advantages of removing high-abundant components from CSF and plasma prior to MS were demonstrated.</p><p>In order to search for potential biomarkers, mass chromatograms of CSF from patients suffering from amyotrophic lateral sclerosis (ALS) and controls were compared using an in-house constructed pattern recognition program. ALS-specific patterns were observed, and four out of five unknown samples were correctly assigned. Alternative strategies to quantitatively compare two pools of samples rely on differential chemical labeling. The performance of one such method, quantification-using-enhanced-signal-tags, was investigated in complex sample analysis. The experimental intensity ratios were proven to be consistent with the prepared concentration ratios of abundant proteins in CSF.</p><p>Finally, the thesis reports on the first experiments where electron capture dissociation (ECD) was successfully incorporated in on-line LC-MS experiments. ECD and nozzle-skimmer fragmentation were applied to a sample of endocrine peptides extracted from mouse pancreatic islets. The two fragmentation methods provided complementary information. However, the method needs further optimization before it can be applied in the analysis of more complex samples, such as body fluids.</p>
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Microscale Tools for Sample Preparation, Separation and Detection of Neuropeptides / Mikroskaliga verktyg för provpreparering, separation och detektion av neuropeptiderDahlin, Andreas January 2005 (has links)
<p>The analysis of low abundant biological molecules is often challenging due to their chemical properties, low concentration and limited sample volumes. Neuropeptides are one group of molecules that fits these criteria. Neuropeptides also play an important role in biological functions, which makes them extra interesting to analyze. A classic chemical analysis involves sampling, sample preparation, separation and detection. In this thesis, an enhanced solid supported microdialysis method was developed and used as a combined sampling- and preparation technique. In general, significantly increased extraction efficiency was obtained for all studied peptides. To be able to control the small sample volumes and to minimize the loss of neuropeptides because of unwanted adsorption onto surfaces, the subsequent analysis steps were miniaturized to a micro total analysis system (µ-TAS), which allowed sample pre-treatment, injection, separation, manipulation and detection. </p><p>In order to incorporate these analysis functions to a microchip, a novel microfabrication protocol was developed. This method facilitated three-dimensional structures to be fabricated without the need of clean room facilities. </p><p>The sample pre-treatment step was carried out by solid phase extraction from beads packed in the microchip. Femtomole levels of neuropeptides were detected from samples possessing the same properties as microdialysates. The developed injection system made it possible to conduct injections from a liquid chromatographic separation into a capillary electrophoresis channel, which facilitated for advanced multidimensional separations. An electrochemical sample manipulation system was also developed. In the last part, different electrospray emitter tip designs made directly from the edge of the microchip substrate were developed and evaluated. The emitters were proven to be comparable with conventional, capillary based emitters in stability, durability and dynamic flow range. Although additional developments remain, the analysis steps described in this thesis open a door to an integrated, on-line µ-TAS for neuropeptides analysis in complex biological samples.</p>
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