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Planejamento e avalia??o de novos inibidores de Pteridina Redutase 1 (PTR1) de Leishmania majorLeite, Franco Henrique Andrade 06 November 2015 (has links)
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Previous issue date: 2015-11-06 / Conselho Nacional de Pesquisa e Desenvolvimento Cient?fico e Tecnol?gico - CNPq / According to WHO, Leishmaniasis is the second most important disease caused by protozoans. However, the available therapeutic arsenal for its treatment is limited and has low efficacy and safety profile. Once Leishmania ssp. are pteridine auxotrophs key enzymes of the folate metabolism have been targeted to circumvent this dilemma. However, Dihydrofolate Reductase-Thymidylate Synthase (DHFR-TS) inhibitors are ineffective against Leishmania major due to an alternative folate pathway regulated by Pteridine Reductase 1 (PTR1). Thus, identifying molecules that act on both enzymes is crucial to develop new leishmanicidal drugs. For that reason, the main goal of this study is to identify, through in silico approaches, (pharmacophore models), putative PTR1 inhibitors that also show structural requirements for L. major DHFR-TS inhibition. The pharmacophore models 10 and 20, PTR1 (2 H-bond donors, 4 H-bond acceptors and 3 hydrophobic centers) and DHFR-TS inhibitors (2 H-bond acceptors and 2 hydrophobic centers) respectively, show high performance to differentiate true-binders from decoys (AUCPTR1=0.90; AUCDHFR-TS=0.86) and to explain the structure-activity relationships for the inhibitors under study. Thus, these models were employed sequentially to select 10 molecules whose effect over the thermal stability of LmPTR1 was investigated by ThermoFluor?. According to this assay, two molecules stabilize LmPTR1: Z80393 (?Tm = 1.02?C) and Z33165 (?Tm = 0.9?C). Binding displacement assays with biopterin or NADPH showed that Z80393 binds within the substrate binding site, whereas Z33165 binds in the cofactor binding site. Z80303 effect over the catalytic activity of PTR1 was investigated by fluorimetry. This approach allowed us to determine the inhibitor?s potency (IC50=32.31 ? 1.18 ?M). Finally, Z80303 putative binding profile was generated by molecular docking and analyzed by Molecular Dynamics (productive phase= 15 ns). The results show that during 70% of the simulation, Z80393 H-bonds to Ser-111 and Arg-17 residues. Therefore, this study not only led to identification of a new class of LmPTR1 inhibitors, but also allowed us to determine its potency, mode of inhibition and binding profile towards its therapeutic target. / A leishmaniose tem sido indicada pela OMS como a segunda protozoose mais importante em termos de mortalidade e preval?ncia. Entretanto, o repert?rio de f?rmacos dispon?veis ? limitado e apresenta, na maioria dos casos, baixos ?ndices de efic?cia e seguran?a. Embora os protozo?rios do g?nero Leishmania sejam auxotr?ficos para folatos, inibidores da Diidrofolato Redutase-Timidilato Sintase (DHFR-TS) s?o pouco eficazes contra esse parasito. A baixa suscetibilidade se explica pela presen?a da Pteridina Redutase 1 (PTR1) que atua como via alternativa para a redu??o de ?cido f?lico ou de pteridinas n?o conjugadas, quando DHFR-TS est? inibida. Diante desse cen?rio, mol?culas que atuam sobre PTR1 e DHFR-TS de Leishmania ssp. parecem ser promissoras para o desenvolvimento de f?rmacos contra a leishmaniose. Por essa raz?o, o objetivo desse trabalho foi identificar, por triagem in silico (modelo farmacof?rico), potenciais inibidores de PTR1 que apresentem os requisitos estruturais m?nimos para inibir tamb?m DHFR de L. major. Os modelos farmacof?ricos 10 e 20, baseados em inibidores de PTR1 (2 doadores de lig. H, 4 aceitadores de lig. H e 3 centros hidrof?bicos) e DHFR-TS (2 aceitadores de lig. H e 2 centros hidrof?bicos) respectivamente, mostraram desempenho satisfat?rio em discriminar inibidores verdadeiros de falsos positivos (AUCPTR1=0,90; AUCDHFR-TS=0,86), al?m de explicarem a rela??o entre a estrutura qu?mica e a atividade biol?gica. Esses modelos foram usados sequencialmente para selecionar 10 mol?culas que tiveram seu efeito sobre a estabilidade t?rmica de LmPTR1 investigado por ThermoFluor?. Nesse ensaio foram identificadas duas mol?culas que estabilizaram LmPTR1: Z80393 (?Tm = 1,02?C) e Z33165 (?Tm = 0,9?C). Ensaios de deslocamento com biopterina ou NADPH mostraram que Z80393 compete com o substrato, enquanto Z33165 interage no s?tio do cofator. O efeito de Z80393 sobre a atividade catal?tica de LmPTR1 foi investigado por fluorimetria, permitindo determinar a pot?ncia desse inibidor (IC50=32,31 ? 1,18 ?M). Por fim, um modelo de intera??o para esse inibidor foi gerado por acoplamento molecular e a pose obtida foi analisada atrav?s de uma Din?mica Molecular com fase produtiva de 15 ns. Os resultados obtidos mostram que durante 70% da simula??o, Z80393 faz liga??es de H com os res?duos Ser-111 e Arg-17. Portanto, o presente trabalho n?o s? levou a identifica??o de uma nova classe de inibidores de LmPTR1, mas tamb?m permitiu caracterizar sua pot?ncia, modalidade de inibi??o e perfil de intera??o com seu alvo terap?utico.
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Comparative Performance of Fluorometry and High Performance Liquid Chromatography in the Detection of Alfatoxin M1 in Two Commercial CheesesPena, Gustavo 01 May 2010 (has links)
Aflatoxin M1 (AFM1) is frequently found in milk and dairy products. It is a metabolite formed in cows from aflatoxin B1 (AFB1), contained in animal feeds. In cheese production AFM1 distributes between curds and whey. In this study, cows were fed 64 µg/AFB1/d for the high treatment, and 5 µg/AFB1/d for the low treatment, to obtain milk contaminated with AFM1 over the 0.5 µg/L and under 0.05 µg/L restrictions, respectively. Cheese was manufactured with milk contaminated with AFM1 at 0.8 and 0.03 ìg/kg by the higher and lower treatment, respectively. Two commercial cheeses were elaborated: a hard-aged cheese (cheddar cheese) and soft high moisture cheese (fresco cheese) to evaluate whether the cheese type had any impact on AFM1 analysis. AFM1 was extracted from cheese using immunoaffinity columns. Analyses were carried out by using high pressure liquid chromatography (HPLC) as the reference method and fluorometry as a method of validation. Analysis was by 2-way fixed factor analyses. AFM1 was detected in all samples by both methods of analysis. There were no detectable statistical differences between cheese types (P>0.05). AFM1 content was significantly different between the high and low concentration of AFB1 used to make the cheese type (P<0.01). Our regression model shows a linear relationship between fluorometry and HPLC methods; R2 = 0.9141 from cheddar cheese and R2 = 0.9141 from fresco cheese. There were no statistical differences between methods of analysis (P>0.05). Carryover of AFM1 in cheese detected by fluorometry in cheddar cheese was 163% and 80% for high and low treatments, respectively, and in fresco cheese was 119 and 133 for high and low treatments, respectively. These carryovers are below that reported in the literature. Results suggest that fluorometry is a simple and reliable AFM1 detection method for screening samples of complex matrices such as cheese.
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<b>Molecular mechanisms of Photosystem II disassembly and repair in </b><b><i>Arabidopsis thaliana</i></b>Steven D McKenzie (18429546) 25 April 2024 (has links)
<p dir="ltr">Photosynthesis is the basis of primary productivity on Earth. Oxygenic photosynthesis utilizes the nearly inexhaustible energy of radiant solar light to fix atmospheric carbon dioxide into usable forms of chemical energy and produces dioxygen as a product. Central to this process are several large hetero-oligomeric protein complexes that comprise the photosynthetic electron transport chain. Photosystem II (PSII) initiates electron transport through the light-driven oxidation of water, in-turn relinquishing protons and oxygen. Through this reaction, electrons are used to form the reductant NADPH, while protons form a proton-motive gradient that is used to drive synthesis of ATP. As a result of this highly energetic reaction, PSII is often subject to oxidative photodamage due to the production of reactive oxygen species. Inevitably, accumulation of oxidative photodamage disrupts the catalytic activity of PSII, resulting in a loss of photosynthetic activity. To deal with the nearly constant incurred photodamage to PSII, oxygenic photoautotrophs undergo a disassembly and repair cycle that results in the complete turnover of the damaged D1 subunit of PSII. Due to its high tendency for damage, the D1 subunit has a half-life of under one hour in high light intensity. Despite our current understanding of photoinhibition and PSII repair, it is still unclear how D1 is replaced so rapidly in response to damaging conditions. Previous research has indicated a role for phosphorylation of PSII in D1 turnover, however the mechanism has not been totally resolved. In the first chapter of this thesis, our current understanding of PSII phosphorylation and oxidative damage is reviewed in the context of PSII repair. In the second chapter, the role of protein phosphorylation in the PSII repair cycle is investigated in the model organism <i>Arabidopsis</i>. Using several PSII phosphorylation mutants, we demonstrate that phosphorylation seems to mediate disassembly of large PSII supercomplexes and dimers into smaller subcomplexes. In the third chapter, the role of oxidative photodamage is investigated in mediating PSII disassembly. Here, we use several <i>in vitro</i> assays to demonstrate that photodamage is sufficient to induce the disassembly of smaller PSII subcomplexes. In the fourth chapter, a technique for determining the stoichiometry of photosynthetic complexes is examined, with implications for understanding PSII repair. Finally, in the fifth chapter, several conclusions and unanswered questions from this thesis are discussed.</p>
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New high through-put assays for detecting transglutaminase activityBen Tahar, Wajih January 2008 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.
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Étude de l'oligomérisation et de la fonction de canaux ioniques par spectroscopie de fluorescence et fluorométrie en voltage imposéMcGuire, Hugo 04 1900 (has links)
La fonction des canaux ioniques est finement régulée par des changements structuraux de sites clés contrôlant l’ouverture du pore. Ces modulations structurales découlent de l’interaction du canal avec l’environnement local, puisque certains domaines peuvent être suffisamment sensibles à des propriétés physico-chimiques spécifiques. Les mouvements engendrés dans la structure sont notamment perceptibles fonctionnellement lorsque le canal ouvre un passage à certains ions, générant ainsi un courant ionique mesurable selon le potentiel électrochimique. Une description détaillée de ces relations structure-fonction est cependant difficile à obtenir à partir de mesures sur des ensembles de canaux identiques, puisque les fluctuations et les distributions de différentes propriétés individuelles demeurent cachées dans une moyenne. Pour distinguer ces propriétés, des mesures à l’échelle de la molécule unique sont nécessaires.
Le but principal de la présente thèse est d’étudier la structure et les mécanismes moléculaires de canaux ioniques par mesures de spectroscopie de fluorescence à l’échelle de la molécule unique. Les études sont particulièrement dirigées vers le développement de nouvelles méthodes ou leur amélioration. Une classe de toxine formeuse de pores a servi de premier modèle d’étude. La fluorescence à l’échelle de la molécule unique a aussi été utilisée pour l’étude d’un récepteur glutamate, d’un récepteur à la glycine et d’un canal potassique procaryote.
Le premier volet porte sur l’étude de la stœchiométrie par mesures de photoblanchiment en temps résolu. Cette méthode permet de déterminer directement le nombre de monomères fluorescents dans un complexe isolé par le décompte des sauts discrets de fluorescence suivant les événements de photoblanchiment. Nous présentons ici la première description, à notre connaissance, de l’assemblage dynamique d’une protéine membranaire dans un environnement lipidique. La toxine monomérique purifiée Cry1Aa s’assemble à d’autres monomères selon la concentration et sature en conformation tétramérique.
Un programme automatique est ensuite développé pour déterminer la stœchiométrie de protéines membranaires fusionnées à GFP et exprimées à la surface de cellules mammifères. Bien que ce système d’expression soit approprié pour l’étude de protéines d’origine mammifère, le bruit de fluorescence y est particulièrement important et augmente significativement le risque d’erreur dans le décompte manuel des monomères fluorescents. La méthode présentée permet une analyse rapide et automatique basée sur des critères fixes. L’algorithme chargé d’effectuer le décompte des monomères fluorescents a été optimisé à partir de simulations et ajuste ses paramètres de détection automatiquement selon la trace de fluorescence. La composition de deux canaux ioniques a été vérifiée avec succès par ce programme.
Finalement, la fluorescence à l’échelle de la molécule unique est mesurée conjointement au courant ionique de canaux potassiques KcsA avec un système de fluorométrie en voltage imposé. Ces enregistrements combinés permettent de décrire la fonction de canaux ioniques simultanément à leur position et densité alors qu’ils diffusent dans une membrane lipidique dont la composition est choisie. Nous avons observé le regroupement de canaux KcsA pour différentes compositions lipidiques. Ce regroupement ne paraît pas être causé par des interactions protéine-protéine, mais plutôt par des microdomaines induits par la forme des canaux reconstitués dans la membrane. Il semble que des canaux regroupés puissent ensuite devenir couplés, se traduisant en ouvertures et fermetures simultanées où les niveaux de conductance sont un multiple de la conductance « normale » d’un canal isolé. De plus, contrairement à ce qui est actuellement suggéré, KcsA ne requiert pas de phospholipide chargé négativement pour sa fonction. Plusieurs mesures indiquent plutôt que des lipides de forme conique dans la phase cristalline liquide sont suffisants pour permettre l’ouverture de canaux KcsA isolés. Des canaux regroupés peuvent quant à eux surmonter la barrière d’énergie pour s’ouvrir de manière coopérative dans des lipides non chargés de forme cylindrique. / The function of ion channels is finely regulated by structural changes of key domains controlling the pore opening. These structural modulations arise from interactions with the local environment, since several domains can be sensitive to specific physico-chemical properties. Movements generated in the structure become notably perceptible when channels open a passage for some ions, thus generating a measurable ionic current according to the electrochemical potential. A detailed description of these structure-function relationships is however difficult to obtain from measurements involving a set of identical channels, since the fluctuations and distributions of different individual properties remain hidden in an average. To differentiate these properties, single-molecule recordings are required.
The main purpose of this thesis is to study the structural aspects and molecular mechanisms of ion channels using fluorescence spectroscopy at the single-molecule level. Studies are oriented towards the development or improvement of new methods. A class of pore-forming toxin served as a first study model. Single-molecule fluorescence was also used to study an ionotropic glutamate receptor, a glycine receptor and a prokaryotic potassium channel.
The first part focuses on the study of stoichiometry using fluorescent subunit counting. This method allows a direct measure of the number of fluorescent monomers within a single complex by counting the number of step-wise fluorescence intensity decrease following photobleaching events. Here we present the first description, to our knowledge, of the dynamic assembly of a membrane protein in a lipid environment. The purified monomeric Cry1Aa toxin clusters with other monomers depending on the concentration and saturates in a tetrameric conformation.
An automated method has been developed to determine the stoichiometry of GFP-tagged membrane proteins expressed on mammalian cell surface. Although this expression system is suitable for the study of proteins of mammalian origin, background fluorescence is particularly important and significantly increases the risk of error in the manual counting process. The presented method allows a fast and automated analysis based on fixed criteria. The algorithm responsible for counting fluorescent monomers was optimized from simulations and adjusts its detection parameters automatically according to the fluorescence trace recording. The composition of two ion channels was successfully verified using this program.
Finally, single-molecule fluorescence is measured together with ionic current of KcsA channels using a voltage-clamp fluorometry setup. These combined recordings allowed us to describe the function of ion channels simultaneously to their position and density as they diffuse in a lipid membrane of defined composition. We observed clustering of KcsA channels for various lipid compositions. Clustering does not appear to be caused by protein-protein interaction, but rather by microdomains induced by the shape of reconstructed channels in the lipid bilayer. It seems that clustered KcsA channels could then become coupled, resulting in cooperative gating events with conductance levels multiple to the “normal” unitary channel conductance. Moreover, as opposed to what is currently suggested, KcsA does not require a negatively charged phospholipid for its function. Several of our recordings rather suggest that conically shaped lipids in the lamellar liquid crystalline phase are sufficient to allow single channel opening. Clustered channels can on the other hand overcome the energy barrier to open cooperatively in uncharged cylindrical lipids.
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[en] DEVELOPMENT AND METROLOGICAL VALIDATION OF A HIGH PERFORMANCE LIQUID CHROMATOGRAPHIC METHOD FOR THE QUANTIFICATION OF CYCLOFENIL AFTER PHOTOCHEMICAL DERIVATIZATION / [pt] DESENVOLVIMENTO E VALIDAÇÃO METROLÓGICA DE MÉTODO ANALÍTICO POR CROMATOGRAFIA LÍQUIDA DE ALTA EFICIÊNCIA PARA A QUANTIFICAÇÃO DE CICLOFENIL APÓS DERIVAÇÃO FOTOQUÍMICAJUAN JOSE GARCIA ANTONIO 22 October 2013 (has links)
[pt] O ciclofenil é um medicamento antiestrogênico usado em tratamentos de distúrbios ovarianos. Por outro lado, esse efeito em homens resulta em aumento de massa muscular, sendo seu uso proibido para atletas do sexo masculino pelo código mundial antidoping estabelecido pela WADA. Os métodos de espectrofotometria de absorção e de fluorescência permitem quantificar direta ou indiretamente o ciclofenil, porém não são adequados para a análise de amostras mais complexas. Este trabalho propõe o desenvolvimento de um método baseado na cromatografia líquida de alta eficiência para determinação de ciclofenil usando detecção por fluorescência, após a fotoderivação do ciclofenil. A separação utiliza eluição isocrática (tampão borato 10 mmol/L(-1), pH 10/metanol/ 60/40 por cento v/v), e coluna C18 mantida a 35 graus Celsius. Após a fotoderivação com UV, formaram-se fotoderivados luminecentes, como previsto na literatura, sendo que o fotoderiado com tempo de retenção igual a 2,7 min foi o escolhido para fins quantitativos por ser estável ao longo de 96 h após o processo de derivatização. Foram obtidos os limites de detecção de 6,6 x 10(-8) mol/L(-1) e de quantificação de 7,3 x 10(-7) mol/L(-1). A faixa de resposta linear se extendeu até 5 x 10(-5) mol/L(-1) (de ciclofenil). As recuperações obtidas em formulações farmacêuticas se apresentaram entre 94 e 105 por cento. Os resultados indicaram que a homogeneidade e estabilidade dos medicamentos de ciclofenil são satisfatórias. As fontes que mais contribuiram para a incerteza de medição estão associadas ao preparo das soluções e à construção da curva analítica. / [en] Cyclofenil is an anti-estrogen used in treatments of ovarian disorders. On the other hand, its effect in men results in the increasing of muscle mass, being its use, by male athletes, banned by the World Anti-Doping Code established by World Anti-Doping Agency. Absorption and fluorescence spectrophotometries allow direct or indirect quantification of cyclofenil, however, they are not suitable for the analysis of complex samples. This work proposes the development of a method based on high performance liquid chromatography to determine cyclofenil using photochemical induced fluorescence detection. The separation using isocratic elution (10 mmol/L(-1) borate buffer at pH 10/methanol (60/40 per cent v/v), and column C18 maintained at 35 degrees celsius. After exposing cyclofenil to the UV, fluorescent photoderivatives were formed, as indicated in the literature, with the photoderivative with the retention time of 2.7 min used for quantitative purposes since it is stable for over 96 h after the photoderivatization procedure. The detection limit was 6.6 x 10(-8) mol/L(-1) and the limit of quantification was 7.3 x 10(-7) mol/L(-1). The linear response range extended up to 5 x 10(-5) mol/L(-1) (as cyclofenil). Recoveries in pharmaceutical formulations were between 94 and 105 per cent. The results indicated that the homogeneity and stability of cyclofenil tablets are satisfactory. The uncertainty sources that present the greatest contributions to the measurement uncertainty were the ones associated with the preparation of the solutions and the analytical curve.
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A study of Kv channel dynamics using a fluorescent unnatural amino acidKalstrup, Tanja 10 1900 (has links)
No description available.
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REGULATION OF HCN CHANNEL FUNCTION BY DIRECT cAMP BINDING AND SINGLET OXYGENIdikuda, Vinaykumar 01 January 2018 (has links)
Hyperpolarization-activated, cyclic-nucleotide gated ion channels (HCN channels) are activated by membrane hyperpolarization and modulated by cyclic nucleotides. HCN channels are important to maintain the resting membrane potential and input resistance in neurons and have important physiological functions in the brain and heart. Four mammalian HCN isoforms, HCN1-4, and the isoform cloned from sea urchin, spHCN, have been extensively studied. Among these, only spHCN channel shows a voltage dependent inactivation. Previous studies have shown that the ligand binding in mHCN2 channel is activity dependent: cAMP binding increases along with channel opening or channels in the open state have higher binding affinity for cAMP. But to date, information pertaining to the ligand binding to an inactivated ion channel or desensitized receptor is lacking. To address this gap, we used fluorescently labelled cAMP analogues in conjunction with patch clamp fluorometry (PCF) to study the ligand binding to the spHCN channel in various conformational states. We show that inactivated spHCN channel shows reduced binding affinity for cAMP, compared to that of the closed or open channel. Parallelly, we noticed significant changes to channel function when a combination of laser and photosensitizer was used to study ligand binding. A reactive oxygen species called singlet oxygen has been confirmed to be the major player in this process. Both photo-dynamically generated and chemically generated singlet oxygen modifies spHCN channel by removing the inactivation. The effect of singlet oxygen on channel can be abolished by the mutation of a key histidine (H462) residue in the ion conducting pore. Taken together, these two projects expanded our understanding about the physicochemical nature of fluorophores from two aspects: (i) the release of photon as a valuable tool to study the conformational dynamics in proteins; (ii) the generation of singlet oxygen as an effective modulator of protein function.
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New high through-put assays for detecting transglutaminase activityBen Tahar, Wajih January 2008 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal
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Detektionsmetoder för immunologiska och enzymatiska reaktioner och deras avgörande parametrar / Detection Methods of Immunological and Enzymatic Reactions and Their Crucial ParametersTchibalina, Lydia, Revend, Shamal January 2022 (has links)
Det finns många biotekniska analys- och detekteringsmetoder. Metoderna används för identifiering och kvantifiering av biomarkörer. Denna studie har analyserat detekteringsmetoder i de fall där två hjärtspecifika biomarkörer används, troponin och kreatinkinas. Studien avsåg att först identifiera tillämpningsfrekvensen av detekteringsmetoder i Sverige samt internationellt. Vidare identifieras sambandet mellan avgörande parametrar i val av detekteringsmetod. Metoden gick ut på att först bestämma den mest frekventa detekteringsmetoden i Sverige med hjälp av en enkät som skickades till olika laboratorier, sedan studerades tidigare studier publicerade på olika internationella databaser. Studierna som tillämpades var på hjärtspecifika troponin och kreatinkinas för att identifiera val av detekteringsmetod, detekteringskaraktäristika och användarvänlighetsparametrar. Studiens resultat visade att nationellt finns det tre detekteringsmetoder som är de mest använda för identifiering av kreatinkinas: masspektrometri, elektrokemisk luminescence och spektrometri. Internationellt är den dominerande metoden däremot elektrokemisk luminescence. För troponin är den dominerande metoden nationellt: elektrokemisk luminescence och flödescytometri, medan internationellt: elektrokemisk luminescence. Elektrokemisk luminescence är i många fall en stark vinnare i tillämpningen. Ytterligare iakttogs korrelationskoefficienter mellan parametern för att identifiera det starkaste respektive svagaste sambandet. Avgörande parametrar i val av elektrokemisk luminescence, visar på flera samband. Elektrokemisk luminescence och kreatinkinas tilldelas en korrelationskoefficient nära ett för parametrar som volym och känslighet och en korrelationskoefficient nära minus ett för linjärt mätområde och volym, samt kostnad och minimummängd. Medan för troponin och elektrokemisk luminescence erhålls en korrelationskoefficient nära ett för parametrar som känslighet och kostnad och en koefficient nära minus ett för kostnad och tid. / There are many biotechnological analysis- and detection methods. The methods are used for identification and quantification of biomarkers. This study has analyzed detection methods incases where two heart-specific biomarkers are used, troponin and creatine kinase. The study was intended to first identify the application frequency of detection methods in Sweden and internationally. Then identify the relationship between crucial parameters in the choice of detection method. The method consisted of first determining the most frequent detection method in Sweden with the help of a questionnaire that was sent to different laboratories, then previous studies published on various international databases were observed. The studies applied were on topics regarding cardiac-specific troponin and creatine kinase to identify choice of detection method, detection characteristics, and ease of use parameters. The results of the study showed that nationally, the detection methods most used for creatine kinase are mass spectrometry, electrochemical luminescence, and spectrometry. Internationally, however, the dominant method is electrochemical luminescence. For troponin, on a national level the dominant methods are electrochemical luminescence and flow cytometry, while internationally: electrochemical luminescence. Electrochemical luminescence is in many cases a strong winner in application. In addition, correlation coefficients are observed between the decisive parameters for a detection method, to identify the strongest and weakest relationships. Electrochemical luminescence and creatine kinase are assigned a correlation coefficient close to one for parameters such as volume and sensitivity and a correlation coefficient when minus one for measurement range and volume, as well as cost and minimum amount. While for troponin and electrochemical luminescence, a correlation coefficient close to one is obtained for parameters such as sensitivity and cost and a coefficient close to minus one for cost and time.
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