Global ETD Search

621	Improved techniques for CE-MALDI-MS off-line coupling and MALDI-MS analysis of primarily hydrophobic proteins and peptides Jacksén, Johan January 2007 (has links) <p>Due to the hydrophobic nature of integral membrane proteins (IMP) they give rise to several difficulties concerning handling and analysis, which is not the case for the most water soluble proteins. New analysis methods are needed, where the insolubility problems of the hydrophobic proteins due to aggregation and adhesion are tackled. Those problems also affect digestion performance and equipment compatibility for the analysis.</p><p>Protocols for analysis and separation specified for IMP are presented in <b>Paper I</b> and<b> III</b>.</p><p>The instrumentation used in this work was capillary electrophoresis (CE) and matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS). Both instruments are suitable for peptide/proteins analysis.</p><p>In <b>Paper I</b>, protocols for a CE separation of bacteriorhodopsin (BR) peptides as model IMP peptides are established. Also, a partially automated manufacturing procedure of a concentration MALDI-target is presented, suitable for fractions from CE. The MS analysis detected 9 out of 10 cyanogen bromide (CNBr) digested BR peptides. A novel technique for the off-line integration of CE to MALDI-MS using a closed-open-closed system is presented in <b>Paper II</b>, where the open part is a microcanal functioning as a MALDI target window. Investigation of the microcanal electro-osmotic flow (EOF) properties and band broadening characteristics was performed. A protein separation was obtained and detected with MALDI-MS analysis in the microcanal. Different protein digestion methods were evaluated using BR in <b>Paper III</b> through MALDI-MS. Several digestion methods as well as MS media were investigated alongside different MALDI matrices. For example, matrices as the hydrophobic 2,6-dihydroxyacetophenone (DHAP) and 2-Hydroxy-3-methoxybenzoic acid (2H3MBA) or 2-Hydroxy-5-methoxybenzoic acid (2H5MBA) mixed with DHB, appeared to be promising matrices for analysis of BR.</p> / <p>Med anledning av integrala membranproteiners (IMP) hydrofoba egenskaper uppstår flera svårigheter vid hantering och analys av IMP, vilket inte är fallet för vattenlösliga proteiner. Nya analysmetoder krävs, som löser löslighetsproblemen för de hydrofoba proteinerna som tex flockning och adsorbtion. Dessa problem påverkar även klyvningsgrad och kompatibilitet med analysutrustningen.</p><p>I <b>Artikel I</b> och <b>Artikel III</b> presenteras protokoll för analys och separation specifikt för IMP. Instrumenteringen som har använts i detta arbete är kapillärelektrofores (CE) och matris-assisterad laserdesorptions-joniserings-masspektrometri (MALDI-MS). Båda instrumenten är lämpade för peptid/protein analyser.</p><p>I <b>Artikel I</b>, presenteras protokoll för en CE separation av peptider från bacteriorhodopsin (BR), som användes som modellpeptider för IMP. En delvis automatiserat tillverkningsprocedur för en koncentrerande MALDI-platta, som är anpassad för CE fraktionerna beskrivs också. MS-analysen detekterade 9 av 10 BR-peptider från cyanobromid-klyvning (CNBr). En ny teknik för off line-integrering av CE till MALDI-MS genom ett slutet-öppet-slutet system presenteras i <b>Artikel II</b>, där den öppna delen är en mikrokanal som fungerar som detektionsfönster i MALDI. Undersökning av mikrokanalens egenskaper som tex det elektroosmotiska flödet (EOF) och bandbreddningen utvärderades. En proteinseparation genomfördes och detekterades med MALDI–MS i mikrokanalen. Olika proteinklyvningsmetoder för BR undersöktes i <b>Artikel</b> <b>III</b> med MALDI-MS. Flera proteinklyvningsmetoder samt MS-medier utvärderades tillsammans med olika MALDI-matriser. Den hydrofoba matrisen 2,6-dihydroxyacetophenone (DHAP) och 2-Hydroxy-3-methoxybenzoic acid (2H3MBA) eller 2-Hydroxy-5-methoxybenzoic acid (2H5MBA) blandade med DHB, visade sig exempelvis vara lovande matriser för BR-analyser.</p> Capillary electrophoresis Hydrophobic peptides Prestructured target Off-line interface Silicon microcanal Matrix Protein cleavage/digestion. Kapillärelektrofores Hydrofoba peptider Strukturbelagd provplatta Off-line interface Mikrokanal i kisel Matris Proteinklyvning/-spjälkning. Analytical chemistry Analytisk kemi
622	Développement de méthodes analytiques de séparation des produits de digestion enzymatique des dérivés de cellulose Farhat, Fatima 12 1900 (has links) La cellulose et ses dérivés sont utilisés dans un vaste nombre d’applications incluant le domaine pharmaceutique pour la fabrication de médicaments en tant qu’excipient. Différents dérivés cellulosiques tels que le carboxyméthylcellulose (CMC) et l’hydroxyéthylcellulose (HEC) sont disponibles sur le commerce. Le degré de polymérisation et de modification diffèrent énormément d’un fournisseur à l’autre tout dépendamment de l’origine de la cellulose et de leur procédé de dérivation, leur conférant ainsi différentes propriétés physico-chimiques qui leurs sont propres, telles que la viscosité et la solubilité. Notre intérêt est de développer une méthode analytique permettant de distinguer la différence entre deux sources d’un produit CMC ou HEC. L’objectif spécifique de cette étude de maitrise était l’obtention d’un profil cartographique de ces biopolymères complexes et ce, par le développement d’une méthode de digestion enzymatique donnant les oligosaccharides de plus petites tailles et par la séparation de ces oligosaccharides par les méthodes chromatographiques simples. La digestion fut étudiée avec différents paramètres, tel que le milieu de l’hydrolyse, le pH, la température, le temps de digestion et le ratio substrat/enzyme. Une cellulase de Trichoderma reesei ATCC 26921 fut utilisée pour la digestion partielle de nos échantillons de cellulose. Les oligosaccharides ne possédant pas de groupements chromophores ou fluorophores, ils ne peuvent donc être détectés ni par absorbance UV-Vis, ni par fluorescence. Il a donc été question d’élaborer une méthode de marquage des oligosaccharides avec différents agents, tels que l’acide 8-aminopyrène-1,3,6-trisulfonique (APTS), le 3-acétylamino-6-aminoacridine (AA-Ac) et la phénylhydrazine (PHN). Enfin, l’utilisation de l’électrophorèse capillaire et la chromatographie liquide à haute performance a permis la séparation des produits de digestion enzymatique des dérivés de cellulose. Pour chacune de ces méthodes analytiques, plusieurs paramètres de séparation ont été étudiés. / Cellulose and its derivatives are used in a wide range of applications, including the pharmaceutical industry for the manufacturing of medicines as inactive additives. Various cellulosic derivatives such as carboxymethylcellulose (CMC) and hydroxyethylcellulose (HEC) are readily available for such use. The degree of polymerization and modification differs from one supplier to the other, according to the origin of the cellulose and its process of chemical modification, conferring on them different physico-chemical properties, such as viscosity and solubility. Our interest is to develop an analytical method that can distinguish between different sources of a given CMC or HEC product. The specific objective of this master’s study was to obtain a fingerprint of these complex biopolymers by developing an enzymatic digestion method to produce smaller oligosaccharides that could be separated by simple chromatographic methods. The digestion was studied as a function of various parameters, such as the composition of the hydrolysis solution, the pH, the temperature, the duration of digestion and the substrate/enzyme ratio. A cellulase enzyme from Trichoderma reesei ATCC 26921 was used for the partial digestion of our samples of cellulose. Since these oligosaccharides do not possess a chromophore or fluorophore, they can’t be detected either by absorbance or fluorescence. It was thus necessary to work out the labeling method for oligosaccharides using various agents, such as 8-aminopyrene-1,3,6-trisulfonic acid (APTS), 3-acetylamino-6-aminoacridine (AA-Ac) and phenylhydrazine (PHN). Finally, the use of capillary electrophoresis and high performance liquid chromatography allowed the separation of the enzymatic digestion products of the cellulose derivatives (CMC and HEC). For each of these analytical separation techniques, several parameters of the separation were studied. Électrophorèse capillaire Fluorescence induite par laser UV-Vis Digestion partielle Produits de digestion enzymatique Acide 8-aminopyrène-1,3,6-trisulfonique Phénylhydrazine Dérivés de cellulose Capillary electrophoresis Laser-induced fluorescence High-performance liquid chromatography Hydrophilic interaction chromatography UV detection Partial digestion Enzymatic digestion products 8-aminopyrene-1,3,6-trisulfonic acid Phenylhydrazine Cellulose derivatives
623	Desenvolvimento de metodologia analítica para a determinação de indicador biológico de exposição ao benzeno / Development of analytical methodology for the determination of biological marker of exposure to benzene Mauricio Xavier Coutrim 08 October 1998 (has links) Os limites de exposição ocupacional ao benzeno, um agente carcinogênico, vêm diminuindo drasticamente nos últimos anos. Por outro lado, a concentração de benzeno em ambientes não ocupacionais tem aumentado devido à emissão biogênica e antropogênica, como exaustão de motores a gasolina e fumaça de cigarro. Indicadores Biológicos de Exposição (IBE) são utilizados como ferramentas importantes na avaliação da exposição humana ao benzeno. Com a diminuição dos limites de exposição, se faz necessário o desenvolvimento de metodologias analíticas com sensibilidade adequada para a determinação de IBE em fluidos biológicos que se correlacionem com baixas concentrações de benzeno absorvido pelo organismo. A utilização do fenol urinário como IBE ao benzeno, embora reconhecida mundialmente, tem a desvantagem de não apresentar boa correlação com a concentração de benzeno ambiental quando esta é menor do que 10 ppm (32 mg/m3). Os ácidos trans,trans-mucônico e S-fenilmercaptúrico, metabólitos do benzeno encontrados na urina, estão entre os compostos mais estudados como IBE ao benzeno. Neste trabalho, o ácido trans,trans-mucônico foi determinado na urina de indivíduos expostos ao benzeno utilizando as técnicas de Eletroforese Capilar (CE) e HPLC, ambas com detecção no UV. Na determinação por HPLC foi adaptada uma metodologia da literatura utilizando coluna analítica com fase reversa. Na determinação por CE foi proposta uma metodologia empregando duas condições analíticas alternativas: uma que utiliza um capilar especial com cela ótica de alta sensibilidade e a outra que utiliza um capilar comum, mas com adição de um modificador orgânico ao eletrólito. As duas condições apresentaram grandes vantagens, como análise rápida (15 minutos) e baixo limite de detecção (25 µg/L). Foram analisadas amostras de urina de indivíduos fumantes e não fumantes onde a sensibilidade da metodologia proposta foi suficiente para diferenciar estatisticamente os dois grupos avaliados. / The occupational exposure limits for benzene, a well-known carcinogenic agent, showed a drastic and continuous decrease in the last few years. In the other hand, benzene concentrations in non-occupational environments are increasing due to biogenic and anthropogenic emissions, like motor fuelled exhaustion and cigarette smoke. Biological markers of exposure are used like a powerful aid to evaluate human exposure for benzene. With the decrease of the exposure limits, the development of analytical methodologies is needed to accomplish adequate sensitivity for the exposure markers determination founded in biological fluids, in order to establish a correlation between the marker and the benzene concentration absorbed by organism. One of the biological marker of exposure for benzene recognized worldwide is urinary phenol, but the exposure for benzene at concentrations smaller than 10 ppm (32 mg/m3) usually is not correlated with urinary phenol concentration. The benzene metabolites trans,trans-Muconic and S-phenylmercapturic acids found in urine have been largely evaluated as biological markers of exposure. At the present work, trans,trans-muconic acid in urine from exposed individuals was determined by Capillary Electrophoresis (CE) and HPLC using UV detection. For HPLC, a pre-established method from literature using reversed phase column was utilized. A new analytical method was proposed using CE in two different conditions: one utilized a special capillary with high sensitivity optical cell and the other utilized a common capillary and an organic modifier added to the electrolyte. Both conditions showed interesting advantages, such as short-time analysis (15 min) and lower limit of detection (L.O.D = 25 µg/L). Urine samples from smokers and non-smokers individuals were analyzed and the proposed method allowed statistical differentiation between these groups. Ácido S-fenilmercaptúrico urinário Ácido trans;trans-mucônico urinário Análise toxicológica Benzeno Cromatografia Eletroforese capilar Indicador Biológico de Exposição Química analítica Toxicologia ambiental Analytical chemistry Benzene Biological Exposure Marker Capillary Electrophoresis Chromatography Urinary S-phenilmercapturic Acid Urinary trans;trans-Muconic Acid
624	Caractérisation d’inhibiteurs d’anhydrase carbonique IX, études de complexes supramoléculaires et interactions moléculaires par résonance plasmonique de surface / Characterization of carbonic anhydrase IX inhibitors, studies of supramolecular complexes and molecular interactions by surface plasmon resonance Florent, Tiphaine 05 December 2014 (has links) L’anhydrase carbonique IX (AC IX h) est une enzyme souvent associée à un mauvais pronostic, à la progression tumorale et à la régulation du pH extracellulaire des cellules tumorales sur un plan moléculaire. L’AC IX est très peu exprimée dans les tissus sains mais par contre, elle est surexprimée au sein de la masse tumorale, ce qui permet de la qualifier comme une cible thérapeutique potentielle. Une nouvelle classe d’inhibiteurs d’anhydrase carbonique IX a été conçue et synthétisée par notre équipe. Cette série de composés présente une solubilité aqueuse faible, limitant ainsi son développement pharmaceutique. La complexation de ces composés avec des cyclodextrines offre la possibilité d’améliorer leur solubilité et leur biodisponibilité sans affecter leur structure originale. Des études de complexation entre nos composés et diverses cyclodextrines ont été réalisées, afin de déterminer le complexe supramoléculaire le plus adéquat. Les études des complexes Analyte / Cyclodextrine ont été réalisées par deux techniques complémentaires, la résonance magnétique nucléaire et l’électrophorèse capillaire. La complexation de six sulfonamidodiarylpyrazoles originaux avec six cyclodextrines (-, - et - CDs, hydroxypropyle HP--CD, méthyle Me--CD ou amino NH2--CD) a été étudiée au pH physiologique. Les constantes de complexation, la stœchiométrie et l’étude structurale des complexes ont alors été déterminées. Par ailleurs, la présence d’un centre d’asymétrie dans la série des alcools secondaires, synthétisés sous leurs formes racémiques, a orienté nos travaux vers le développement de méthodes séparatives à l’échelle préparative afin de disposer de quantités suffisantes d’énantiomères permettant la détermination de leurs affinités pour la cible. Les séparations chirales ont été mises au point par chromatographie liquide haute performance, par chromatographie en phase supercritique ou par électrophorèse capillaire. La caractérisation de quatre analytes vis-à-vis de l’anhydrase carbonique II (AC II) a été réalisée, dans un premier temps, par des études d’interaction moléculaire utilisant des méthodes biophysiques qui ne nécessitent pas de marquage des partenaires, la résonance plasmonique de surface, la calorimétrie de titration isotherme et la thermal shift assay. L’objectif de cette comparaison était de valider les résultats obtenus mais aussi de sélectionner la méthode d’analyse permettant l’étude d’une grande série de composés avec l’isoforme d’intérêt (AC IX). Les résultats obtenus nous ont conduits à choisir la résonance plasmonique de surface (RPS) comme technique de choix pour l’étude de l’affinité des sulfonamidodiarylpyrazoles. Les affinités de seize composés pour trois isoformes (AC II, IX et XII) ont ensuite été déterminées par RPS. Des affinités de l’ordre du nanomolaire ont été obtenues pour les trois isoformes. De cette étude, deux composés possédant une affinité intéressante pour l’AC IX et une sélectivité AC IX versus AC II ont été selectionnés. De plus, l’étude de l’affinité des composés optiquement purs a permis de mettre en évidence une énantioselectivité isoforme dépendante. / Carbonic anhydrase (CA) IX expression is increased upon hypoxia and has been proposed as a therapeutic target since it has been associated with poor prognosis, tumor progression and pH regulation. A new class of human carbonic anhydrase IX (hCA IX) inhibitors, diarylpyrazole sulfonamide derivatives, has been synthesized in our team. These compounds have a very limited water solubility which limits their pharmaceutical development. The complexation with cyclodextrins (CDs) offers the possibility to improve their solubility without affecting their original structure and has proved to be one of the most effective. The studies of the complexes formed between our compounds and various CDs have been performed, in order to choose the most appropriate CD. We investigate by NMR and capillary electrophoresis the complexes formed between six original diarylpyrazole sulfonamide derivatives and six CDs (native -, - and - CDs, hydroxypropylated HP--CD, methylated Me--CD or amino NH2--CD) at physiological pH. Futhermore, as these compounds have a chiral center, it was essential to separate their enantiomers and verify their optical purities before envisaging the study of their pharmacological activity. The enantiomeric purification was performed by three separative methods, the high performance liquid chromatography, the supercritical fluid chromatography and the capillary electrophoresis. This study permit to obtain optically pure compound in order to determine affinity of carbonic anhydrase. To determine the affinities of derivatives with isoforms, we performed first a comparison of three label-free methods for quantitative assessment of binding strength between carbonic anhydrase II and sulfonamides derivatives. The formation constants have been determined by surface plasmon resonance, isothermal titration calorimetry and thermal shift assay, which characterize the interaction between two partners. This study was useful to select and to validate the surface plasmon resonance (SPR) for the molecular interaction between carbonic anhydrases and all our derivatives. Affinities of sixteen compounds for three carbonic anhydrase isoforms (CA II, IX and XII) were then determined by SPR. These compounds have nanomolar affinities for three isoforms. Two compounds have affinities with great interest for the isoform CA IX, and a good selectivity CA IX versus CA II and should be considered as lead compounds. Additionally, some of optically pure compounds have shown an enantioselectivity for the AC isoforms Anhydrase carbonique Sulfonamidodiarylpyrazole Interaction moléculaire Résonance plasmonique de surface Calorimétrie de toitration isotherme Cyclodextrines Séparation chirale Electrophorèse capillaire Carbonic anhydrase Molecular interaction Surface plasmon resonance Isothermal titration calorimetry Thermal shift assay Cyclodextrins Chiral separation Capillary electrophoresis Liquid and supercritical chromatography
625	Nízkonákladové mikroextrakční a prekoncentrační postupy pro biomedicínské aplikace / Low-cost microextraction and preconcentration procedures for biomedical applications Vašátko, Jan January 2019 (has links) This thesis focuses on low-cost microextraction techniques and their application for purification and preconcentration of biological samples, specifically on the experimental study of supported liquid membrane (SLM) extraction. The described microextraction technique uses commercially available filtration plates as the extraction units and allows the extraction of basic drugs from biological samples of urine and blood (in the form of dried blood spots). The experimental part includes the optimization of microextraction conditions of basic drugs from real samples through a SLM coupled in-line to lab-made capillary electrophoresis. The basic optimization of microextraction conditions involved selecting the appropriate organic phase for membrane impregnation (1:1 mixture of ENB and DHE), appropriate agitation speed for sample convection during extraction (1000 rpm), and optimal ratio of donor to acceptor volumes for high preconcentration of the analytes (400:15 µL). After basic optimization, the effect of donor alkalization with NaOH on extraction recovery (ER) was investigated. For all matrices used (saline solution, undiluted human urine samples, human capillary blood eluted from dry blood spots with deionized water), the highest ER values were achieved using a neutral donor and an acidic acceptor. The extraction time (60 minutes) was optimized based on the time profile of the microextraction for 120 minutes. This optimized microextraction method is suitable for the determination of basic drugs in real matrices with sufficient sample clean-up, preconcentration and ER values.
626	Vícerozměrné separace v kapalné fázi / Multidimensional Liquid Phase Separations Šesták, Jozef January 2015 (has links) This dissertation is dedicated to the topic of multidimensional liquid phase separations. This separation techniques are developed for analysis of complex samples containing thermally labile, low volatile or high molecular weight components that can´t be analysed by two-dimensional (2D) gas chromatography. Concepts of peak capacity and orthogonality are explained and various methods of their determination are stated in theoretical part of dissertation. High performance column liquid chromatography (HPLC) and high performance capillary electrophoresis (HPCE) are suggested as the most suitable methods for automated multidimensional liquid phase separations on-line coupled to mass spectrometry. Configuration of simplified miniaturized liquid chromatograph is described in experimental part of this thesis. Original concept of the system has been extended by simple mobile phase gradient generation technique. Correct function was demonstrated on repeatable separation of alkylphenones, peptides, nitroaromatics, and nitroesters. This system has been utilized as a base for a couple of simple two-dimensional separation platforms for HILIC-MALDI-MS analysis of glycans, for separation of peptides based on off-line coupling of isoelectric focusing and capillary liquid chromatography, and finally for on-line IEC×RPLC, RPLC×RPLC, and HILIC×RPLC two-dimensional liquid chromatography. Correct operation of submitted platforms has been proved.
627	Stanovení vybraných komponent v lidské moči elektroforézou v krátké kapiláře. / Determination of selected components in human urine with electrophoresis in short capillary. Makrlíková, Anna January 2015 (has links) Capillary zone electrophoresis is frequently used in various analyses. In this diploma thesis a hydrodynamic sample introduction method controlled by pressure pulse has been proposed for short-capillary electrophoresis. The base electrolyte flushes sample from the loop of a six-way sampling valve and is carried to the injection end of the capillary. At the time when the sample zone reached the capillary, a short pressure impulse is generated in the electrolyte stream, which provides injection of the sample into the capillary. Then the electrolyte flow is stopped and the separation voltage is turned on. The amount of sample introduced to the capillary is controlled by the duration of the pressure pulse. This new sample introduction method was tested in the determination of ammonia, histidine, creatinine, uric acid and hippuric acid in human urine and for rapid screening of the contents of the inorganic ions in cerebrospinal fluid and blood plasma. The determination was performed in a capillary with an overall length of 10,5 cm and two base electrolytes was tested - 50 mM MES + 5 mM NaOH (pH 5,10) and 1 M acetic acid + 1,5 mM crown ether 18-crown-6 (pH 2,40). Using dual detection techniques contactless conductivity and UV spectrometric detection, anorganic and organic substances in the sample could...
628	Využití vysokoúčinných separačních metod pro chirální i achirální separace / The application of high-efficiency separation methods for chiral and achiral separations Šubová, Martina January 2019 (has links) In the first part of the doctoral thesis, the capillary electrophoresis was used to test the potential chiral separation properties of monosubstituted cyclodextrin derivatives, namely PEMEDA- and PEMPDA-β-cyclodextrins for the group of selected analytes. Both selectors exhibited excellent enantioseparation properties for N-boc-D,L-tryptophan, where the enantiomers were completely separated even at 0.5 mmol·l-1 concentration of the cyclodextrin derivative in the background electrolyte. However, the differences between the enantiodiscrimination properties of individual derivatives were minimal. The second test group consisted of two cyclodextrin derivatives, namely 2-O- and 3-O- cinnamyl-α-cyclodextrins. These derivatives are able to form supramolecular polymers in aqueous solutions that disintegrate at elevated temperature. The formation of these polymers was tested by NMR and DLS experiments. None of the tested cyclodextrin derivatives showed enantiodiscrimination properties towards a group of selected analytes. In the frame of antipredatory study, HPLC-MS/MS method working in HILIC mode was used for separation of ten pterin derivatives and riboflavin, which can be present as pigments in insects, reptiles or amphibians as a part of their warning coloration. The developed methodology was applied for...
629	Improved techniques for CE-MALDI-MS off-line coupling and MALDI-MS analysis of primarily hydrophobic proteins and peptides Jacksén, Johan January 2007 (has links) Due to the hydrophobic nature of integral membrane proteins (IMP) they give rise to several difficulties concerning handling and analysis, which is not the case for the most water soluble proteins. New analysis methods are needed, where the insolubility problems of the hydrophobic proteins due to aggregation and adhesion are tackled. Those problems also affect digestion performance and equipment compatibility for the analysis. Protocols for analysis and separation specified for IMP are presented in Paper I and III. The instrumentation used in this work was capillary electrophoresis (CE) and matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS). Both instruments are suitable for peptide/proteins analysis. In Paper I, protocols for a CE separation of bacteriorhodopsin (BR) peptides as model IMP peptides are established. Also, a partially automated manufacturing procedure of a concentration MALDI-target is presented, suitable for fractions from CE. The MS analysis detected 9 out of 10 cyanogen bromide (CNBr) digested BR peptides. A novel technique for the off-line integration of CE to MALDI-MS using a closed-open-closed system is presented in Paper II, where the open part is a microcanal functioning as a MALDI target window. Investigation of the microcanal electro-osmotic flow (EOF) properties and band broadening characteristics was performed. A protein separation was obtained and detected with MALDI-MS analysis in the microcanal. Different protein digestion methods were evaluated using BR in Paper III through MALDI-MS. Several digestion methods as well as MS media were investigated alongside different MALDI matrices. For example, matrices as the hydrophobic 2,6-dihydroxyacetophenone (DHAP) and 2-Hydroxy-3-methoxybenzoic acid (2H3MBA) or 2-Hydroxy-5-methoxybenzoic acid (2H5MBA) mixed with DHB, appeared to be promising matrices for analysis of BR. / Med anledning av integrala membranproteiners (IMP) hydrofoba egenskaper uppstår flera svårigheter vid hantering och analys av IMP, vilket inte är fallet för vattenlösliga proteiner. Nya analysmetoder krävs, som löser löslighetsproblemen för de hydrofoba proteinerna som tex flockning och adsorbtion. Dessa problem påverkar även klyvningsgrad och kompatibilitet med analysutrustningen. I Artikel I och Artikel III presenteras protokoll för analys och separation specifikt för IMP. Instrumenteringen som har använts i detta arbete är kapillärelektrofores (CE) och matris-assisterad laserdesorptions-joniserings-masspektrometri (MALDI-MS). Båda instrumenten är lämpade för peptid/protein analyser. I Artikel I, presenteras protokoll för en CE separation av peptider från bacteriorhodopsin (BR), som användes som modellpeptider för IMP. En delvis automatiserat tillverkningsprocedur för en koncentrerande MALDI-platta, som är anpassad för CE fraktionerna beskrivs också. MS-analysen detekterade 9 av 10 BR-peptider från cyanobromid-klyvning (CNBr). En ny teknik för off line-integrering av CE till MALDI-MS genom ett slutet-öppet-slutet system presenteras i Artikel II, där den öppna delen är en mikrokanal som fungerar som detektionsfönster i MALDI. Undersökning av mikrokanalens egenskaper som tex det elektroosmotiska flödet (EOF) och bandbreddningen utvärderades. En proteinseparation genomfördes och detekterades med MALDI–MS i mikrokanalen. Olika proteinklyvningsmetoder för BR undersöktes i Artikel III med MALDI-MS. Flera proteinklyvningsmetoder samt MS-medier utvärderades tillsammans med olika MALDI-matriser. Den hydrofoba matrisen 2,6-dihydroxyacetophenone (DHAP) och 2-Hydroxy-3-methoxybenzoic acid (2H3MBA) eller 2-Hydroxy-5-methoxybenzoic acid (2H5MBA) blandade med DHB, visade sig exempelvis vara lovande matriser för BR-analyser. / QC 20101109 Capillary electrophoresis Hydrophobic peptides Prestructured target Off-line interface Silicon microcanal Matrix Protein cleavage/digestion. Kapillärelektrofores Hydrofoba peptider Strukturbelagd provplatta Off-line interface Mikrokanal i kisel Matris Proteinklyvning/-spjälkning. Analytical Chemistry Analytisk kemi

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