Global ETD Search

321	The role of the ß4 subunit in phosphorylation of calcium-activated potassum [sic] channels a dissertation / Petrik, David. January 2008 (has links) Dissertation (Ph.D.) --University of Texas Graduate School of Biomedical Sciences at San Antonio, 2008. / Vita. Includes bibliographical references.
322	Electrophysiological investigation into the significance of ATP-sensitive K+ channels in Parkinson's disease McGroarty, Alan January 1999 (has links) No description available. 616.8
323	Chemical-Biological Investigation of KCNQ1/KCNE K<sup>+</sup> Channel Complexes: A Dissertation Morin, Trevor J. 13 August 2008 (has links) KCNE β-subunits modulate KCNQ1 (Q1) voltage-gate K+channels providing the current diversity required for Q1 channels to function in a wide variety of cell types and tissues. In the present thesis, the stoichiometry of KCNE1 (E1) β-subunits in functioning Q1 channels is investigated, along with the formation of heteromeric channel complexes, complexes containing 2 different KCNE β-subunits. The chemical approaches used to answer these questions were then expanded to generate a novel labeling reagent. To determine the stoichiometry of the Q1/E1 complex, I devised an iterative subunit counting approach that relies on a chemically releasable K+channel blocking reagent. The extracellularly applied reagent irreversibly blocks charybdotoxin (CTX) sensitive Q1 channels by chemically modifying E1 peptides that contain an N-terminal cysteine residue. Chemical release of the inhibitor and subsequent iterative applications of the reagent reported that Q1 channels partner with two KCNE β-subunits. To determine whether heteromeric Q1-KCNE complexes form, I synthesized a similar, but non-cleavable, K+channel blocking reagent that detects specific KCNE peptides in functioning complexes by irreversible channel inhibition. Using this “KCNE sensor”, heteromeric Q1/E1/E3, Q1/E1/E4 and Q1/E3/E4 complexes were shown to form, traffic to the cell surface and function. Using mathematical subtraction to visualize the irreversibly blocked current, the currents and gating kinetics of the different heteromeric complexes were revealed and a hierarchy of KCNE subunit modulation of Q1 channels was determined: E3>E1>>E4. Building on this technology, a chemically releasable K+ channel blocking reagent was created to specifically label KCNE β-subunits with biotin. The reagent delivers biotin to CTX sensitive Q1 channels and labeling occurs through free thiols provided by either cysteine residues or thiol modified sugars. This preliminary data demonstrates a novel strategy for labeling endogenous K+ channels in native cells. KCNQ1 Potassium Channel Potassium Channels Voltage-Gated Cell Membrane Cells Genetic Phenomena Inorganic Chemicals Tissues
324	Etude des transporteurs impliqués dans l’absorption racinaire et la translocation aux parties aériennes du césium chez Arabidopsis thaliana / Study of transporters involved in cesium uptake by roots and translocation to the aerial parts in Arabidopsis thaliana Genies, Laure 26 January 2017 (has links) Le 134Cs et le 137Cs, isotopes radioactifs du césium relâchés entre autres à la suite des accidents de Tchernobyl et Fukushima, sont des sources de préoccupations majeures pour la sécurité sanitaire et la protection des écosystèmes. La contamination des plantes est liée en partie à leur capacité à absorber le césium présent dans la solution du sol via des transporteurs. Le césium emprunte en effet, au moins en partie, le système de transport potassique sans disposer de transporteurs qui lui sont spécifiques. Il existe une grande diversité de transporteurs potassiques et la part du flux total qu’ils prennent en charge dépend du niveau de potassium fourni à la plante. Nous avons fait varier ce niveau et étudié son impact sur l’absorption et la distribution du césium dans la plante. Outre les phénomènes de compétition existant entre les deux éléments, le type de transporteurs dominant à un niveau de potassium donné a également une influence sur le transport du césium. Nous avons ainsi pu mettre en évidence des familles de transporteurs potassiques ayant de plus fortes chances d’être impliquées dans le transport de césium. Ainsi, les résultats produits pendant cette thèse mettent en évidence le rôle in planta du transporteur KUP9, jusque-là peu étudié, dans les flux de césium chez Arabidopsis thaliana. Nous n’observons pas de modifications de l’absorption du potassium chez les mutants invalidés sur ce transporteur : il serait donc possible de le manipuler pour moduler l’absorption de césium sans que la nutrition potassique ne soit altérée. / 134Cs and 137Cs, two radioactive isotopes unintentionally released after the Chernobyl and the Fukushima accidents, are of major concern for ecosystems protection and human health. Plants contamination is due to their ability to absorb cesium from the soil solution via transporters. Indeed, cesium which is supposed to have no role in plants can pass through potassium transporters. Proteins involved in potassium transport are diverse and the part of fluxes covered by each of them depends on the level of potassium supplied to the plant. We tested the effects of this level on uptake and distribution of cesium into the plant. Beside competition between the two elements, transporters which are dominant for a given potassium supply condition modify the cesium transport. Making the link between these modifications and knowledge on identity and properties of potassium transporters, we highlighted candidates with high potential for cesium transport. Hence, results produced during my thesis demonstrate in planta the role of KUP9 transporter, which has received little attention so far, in cesium fluxes in Arabidopsis thaliana. Changing in potassium uptake has not been observed in mutant lines disrupted in this KUP9 transporter suggesting interestingly that it could be possible to modulate cesium uptake without alteration of potassium nutrition. Arabidopsis thaliana Césium Potassium Transporteurs Arabidopsis thaliana Cesium Potassium Transporters 580
325	Etude ab initio du trioxyde de tungstène WO3 en volume et en surface / Ab initio study of tungsten trioxide WO3 in volume and surface area Koutiri, Issam 30 November 2012 (has links) Nous avons étudié par calcul ab initio la structure et la stabilité de différentes phases cristallographiques du trioxyde de tungstène en volume et ensurface, ainsi que l'effet du dopage par le potassium. L'étude a été motivéepar des travaux expérimentaux sur la croissance de nano-bâtonnets WO3 surun substrat de mica ; ces nanostructures adoptent la phase hexagonale, mé-tastable dans le WO3 massif. La première partie du manuscrit est consacrée àl'étude du volume. Les structures atomiques des phases hexagonales et monocliniquessont déterminées et comparées aux différents modèles proposés dansla littérature expérimentale. La stabilité relative de ces deux phases est calculée en fonction du taux de potassium permettant d'obtenir un diagrammede phase approximatif de KxWO3 montrant que la phase hexagonale est stablepour x compris entre 3 et 35%. Par ailleurs, les distorsions disparaissentpour des concentrations de K suffisamment élevées. Ces résultats expliquentla stabilisation de la phase hexagonale dans les nano-bâtonnets par l'insertiond'atomes de K de la surface du mica. Dans la seconde partie, une étudesystématique des surfaces, en phase monoclinique et hexagonale, est présentée. Pour chaque phase, les trois orientations de surface de plus faibles indicesde Miller sont considérées. Toutes les terminaisons non-reconstruitesainsi que plusieurs types de reconstructions ont été analysées en terme depolarité, stabilité et structure atomique. Pour la phase monoclinique, l'orientation(010) avec reconstruction c(2x2) est la surface la plus stable, enaccord avec des données expérimentales. Quant à la phase hexagonale, c'estla surface c(1x1)O2(1120) qui a la plus petite énergie de surface (0.02 eV/Å2).Nous trouvons que la stabilité des différentes orientations est très sensible audopage par le potassium. En effet, pour KxWO3 avec x = 13 , c'est l'orientation (0001) qui est la plus stable, avec une terminaison KO3 et une énergiede surface de 0.05 eV/Å2. / The structure and stability of different crystallographic phases of tungstentrioxide and the effect of potassium doping have been studied using ab initiocalcuations, both in the bulk and at the surface. The study was motivatedby experimental works on the growth of WO3 nanorods on a mica substrate.The nanorods adopt a hexagonal phase, which is metastable in bulk WO3.The first part of the manuscript reports the study of bulk WO3. For thehexagonal and monoclinique phase, the atomic structure is deterimined andcompared with different models that have been proposed in the experimentalliterature. The relative stability of the two phases is calculated as a functionof potassium doping. From this an approximate phase diagram of KxWO3is obtained which shows that the the hexaongal phase is stable for x between3 and 35%. It is also shown that the WO3 lattice distortions disappearfore sufficient K concentration. These results explain the stabilization of thehexagonal phase in the nanorods through insertion of K atoms from the micasurface.In the second part of the manuscript, a sytematic study of the surfaces ofWO3 in the monoclinic and hexagaonal phase is presented. For each phase,the three surface orientations of lowest Miller indices are considered. All nonreconstructedterminations and several types of reconstructions are analysedin terms of polarity, stability and atomic structure. In the monoclinic phase,the (010) surface with a c(2x2) reconstruction is most stable, in agreementwith experiment. For the hexagonal phase, the surface with lowest energy(0.02 eV/Å2) is c(1x1)O2(1120). It is found that the stability of the differentorientations is very sensitive to potassium doping. For hexagonal KxWO3with x = 13 , the (0001) surface is most stable with a KO3 termination and asurface energy of 0.05 eV/Å2. DFT Croissance Oxydes de tungstène Potassium Polarité DFT Growth Tungsten oxides Potassium Polarity 541.33 546
326	Induced systemic resistance in wheat after potassium phosphate treatment Mansoor, Chara Virginia 22 August 2012 (has links) M.Sc. / Wheat is one of the most extensively grown small grain crops in Southern Africa. It is a staple food source used by humans, animals and other living organisms around the globe (Feldman, 2001). One of the major threats of wheat production in South Africa is the Russian wheat aphid (RWA), (Kurdjumov), (Diuraphis noxia, Homoptera: Aphididae) (Brooks et al., 1994; Du Toit & Walters, 1984). The RWA was first described as a pest in South Africa in 1978 and in the US in 1986. Thereafter it was rapidly reported as becoming a major pest of cereals in these countries (Brooks et al., 1994; Du Toit & Walters 1984). A short life span, asexual reproduction, the development of resistance towards insecticides and rapid colonisation of the host plant are all factors that have made the management of the RWA a difficult task (Dogimont et al., 2010; Hein et al., 1998). As a result of complications such as these, host plant resistance is the most viable option to counter the RWA (Dogimont et al., 2010). The method of feeding of the RWA is detrimental to the plant as they insert their stylets into, and feed primarily from, the phloem sieve elements. This damages the plants through nutrient drainage (Dixon, 1985; Klingler et al., 2009) and results in a variety of symptoms, the most common being chlorosis, necrosis, wilting, stunting, curling of the leaves (which provides the pest with a sheltered environment protected from predators and pesticides), misshapen or nonappearance of new growth, and localised cell death at the site of aphid feeding. The RWA elicits an increase in essential amino acids in the phloem sap, by triggering the breakdown of proteins in infested wheat leaves (Burd & Burton, 1992; Du Toit, 1986; Haley et al., 2004; Ma et al., 1998; Miller et al., 2001; Walters et al., 1980). It also reduces transport of labelled tracers (amino acids) from the feeding site to the roots and other sinks in the plant. This increases the nutrient concentration at the site of aphid feeding by increasing the import of resources from other sites in the plant, mobilising local resources and blocking their export to other organs. The damage of the foliar tissue that occurs as a result of the RWA feeding is thought to play a role in the pest’s ability to increase the nutritional quality of the host plant (Botha et al., 2006; Goggin, 2007; Shea et al., 2000). Wheat - Effect of potassium on Russian wheat aphid Potassium phosphates Wheat - Disease and pest resistance Wheat - Diseases and pests
327	Antifibrillatory actions of K+ channel blocking drugs Beatch, Gregory N. January 1991 (has links) Class III antiarrhythmic drugs share the common mechanism of widening the cardiac action potential without affecting conduction velocity. This thesis reports on the actions of newly developed putative Class III antiarrhythmic drugs, tedisamil, KC 8851, RP 62719, UK 68798, and risotilide, as well as an ATP-sensitive K⁺ channel blocker, glibenclamide. Studies were performed to examine the actions of these drugs in acute myocardial ischaemia and possible mechanisms responsible for these actions. The hypothesis tested was that drug treatment prevented arrhythmias induced by acute myocardial ischaemia. Species dependent actions of these drugs on ECG and blood pressure were examined in rats, guinea pigs, pigs and primates. The five putative class III drugs listed above were assessed for antiarrhythmic activity in a conscious rat model of myocardial ischaemia. It was found that only tedisamil and KC 8851, which widened the Q-T[formula omitted] interval of the ECG (by up to 65%) , were effective at suppressing fibrillation in this species. None of the drug treatments decreased the incidence of ventricular premature beats. Tedisamil, but not glibenclamide, prevented tachycardias in a rat model of myocardial ischaemia- and reperfusion-induced arrhythmias. In an anaesthetized pig model of acute myocardial ischaemia, tedisamil and UK 68,798 were shown to mildly prolong the Q-T[formula omitted] interval by less than 20%, but protection against arrhythmias was equivocal. In further studies, tedisamil and UK 68,798 were compared to each other for effects on ventricular epicardial action potential morphology using intracellular recording in vivo, and effects on ventricular effective refractory period using electrical stimulation in vivo in both rats and guinea pigs. Tedisamil (4 mg/kg, i.v.) prolonged rat ventricular epicardial action potential duration fourfold in vivo, while UK68,798 (up to 1 mg/kg, i.v.) was ineffective in this species. Tedisamil (4 mg/kg, i.v.) widened guinea pig ventricular epicardial potentials by 80%, while UK 68,798 (25 μg/kg, i.v.) increased these by 30%. Action potential widening paralleled increases in ventricular refractoriness to electrical induction of premature beats. It was found that the species selective actions of these drugs was most likely related to differences in selectivity for K⁺ channels which contribute to repolarization in myocardium. / Medicine, Faculty of / Anesthesiology, Pharmacology and Therapeutics, Department of / Graduate Potassium channels -- Antagonists Myocardial depressants Potassium Channels -- drug effects Anti-Arrhythmia Agents
328	development of novel efficient sensors for the recognitions of different water species – aluminium ions, potassium ions, atrazine and glyphosate / développement de nouveaux capteurs efficaces pour la reconnaissance de différentes espèces d'eau – ions aluminium, ions potassium, atrazine et glyphosate. Nguyen, Hanh Linh 04 December 2019 (has links) La conception, la synthèse et l’étude des propriétés photophysiques de sondes fluorescentes d’espèces moléculaires ou de cations présente beaucoup d’intérêt dans des domaines aussi divers que l’environnement et la biologie. En particulier, les cations polluants (cations d’aluminium, cations de potassium) et les résidus de pesticides (tels que le glyphosate ou l’atrazine) qui n’étant pas dégradés par le métabolisme, ils se retrouvent dans les eaux de boissons à des concentrations délétères pour l’environnement. Les méthodes analytiques actuelles telles que la spectroscopie d'absorption atomique, la spectroscopie de masse sont coûteuses et ne peuvent être utilisées que pour les déterminations à l'intérieur. Inversement, l'utilisation de la technique de fluorescence offre des avantages distincts en termes de sensibilité, de sélectivité et de développement potentiel d'appareils portables.Dans cette thèse, des sondes fluorescentes efficaces pour la détection de l'aluminium, du potassium, du glyphosate et de l'atrazine ont été ciblées. Pour l'aluminium, une nouvelle sonde hydrosoluble (PSSA) a été synthétisée, reconnaissant les cations d'aluminium sur la base du mécanisme d'amélioration de l'émission induisant une agrégation. Avec une limite de détection de 153 nM et une bonne propriété de sélectivité, le PSSA a également été intégré avec succès dans un système PDMS / verre afin de permettre l’utilisation d’un dispositif portable pour la détection de l’aluminium.Ensuite, deux sondes synthétisées différentes de notre laboratoire (Calix-Rhod-aza et DMAP-BARB) ont été considérées dans cette thèse. Ces sondes ont été développées pour la détection de potassium et d'atrazine, respectivement. Pour les deux molécules, la photophysique et la complexation vis-à-vis d'espèces ciblées ont été étudiées, et deux configurations différentes de microfluidique capillaire en PTFE ont été réalisées pour leur détection, avec des limites de détection très satisfaisantes (qui bien conformes à la gamme des normes réglementaires).Enfin, des efforts ont été consacrés à la conception et à la synthèse de nouveaux capteurs pour le glyphosate. Quatre sondes différentes ont été conçues (GlyP-a, GlyP-b, GlyP-c, GlyP-d). GlyP-a a été faite, alors que les autres étaient à deux pas de la réalisation. En effet, ce projet est toujours en cours dans notre laboratoire, en prenant les résultats préliminaires de ce travail. / The design, synthesis and photophysical studies of fluorescent sensors of neutral molecules or cations are of great interest in environment and biology. In particular, metal-based pollutants (aluminium cations, potassium cations) and pesticide residues (such as glyphosate or atrazine) which are not degraded by the metabolism can be found in drinking water at harmful concentrations to the environment. Actual analytical methods such as atomic absorption spectroscopy, mass spectroscopy are expensive and can only be used for indoor determinations. Conversely, the use of fluorescence technique offers distinct advantages in terms of sensitivity, selectivity with a potential development of portable devices.In this thesis, efficient fluorescent probes for the sensing of aluminium, potassium, glyphosate and atrazine were targeted. For aluminium, a novel water-soluble probe (PSSA) was synthesized, which recognize aluminium cations based on aggregation-induce emission enhancement mechanism. With a detection limit of 153 nM and good selectivity property, PSSA was also successfully incorporated onto a PDMS/glass system for enabling a portable device for aluminium detection.Next, two different synthesized probes from our laboratory (Calix-Rhod-aza and DMAP-BARB) were considered in this thesis. These probes were developed for potassium and atrazine sensing, respectively. For both molecules, the photophysical and complexation towards targeted species were studied, and two different PTFE capillary microfluidics set-ups were realized for their detection, with highly satisfactorily detection limits (well in accordance with the range of the regulation standards).Finally, efforts were given on the design and synthesis of new sensors for glyphosate. Four different probes were designed (GlyP-a, GlyP-b, GlyP-c, GlyP-d). GlyP-a has been made, while the others were just one step away from realization. Indeed, this project is still under progress in our laboratory, taking the preliminary results from this work. Capteurs fluorescents Microfluidique Aluminium Potassium Atrazine Glyphosate Fluorescent sensor Microfluidics Aluminium Potassium Atrazine Glyphosate
329	SELECTIVE MODULATION OF SMALL CONDUCTANCE CALCIUM ACTIVATED POTASSIUM CHANNELS IN C57BL/6J MICE RESCUES MEMORY AND ATTENTION DISORDERS IN KETAMINE-INDUCED PSYCHOSIS: A NEW THERAPEUTIC APPROACH Unknown Date (has links) Small conductance Ca2+-activated K+ (SK) channels are expressed throughout brain regions important for long-term memory. They constrain the intrinsic excitability of neurons by enhancing afterhyperpolarization, shape glutamatergic synaptic potentials and limit induction of NMDA receptor-dependent synaptic plasticity. Behaviorally, SK channels modulate learning and memory encoding. It is hypothesized that SK channels influence cognitive symptoms of psychosis including executive functioning, working memory, and selective attention. Theories of psychosis currently posit that symptoms of psychosis are a result of dopaminergic hyperfunction, and glutamatergic dysregulation which can be induced following administration of the NMDA receptor antagonist, ketamine. Initial experiments confirmed that sub-chronic treatment with KET produced significant impairment of object recognition memory, trace fear memory, and latent inhibition compared to SAL mice. A comparison of ketamine dosing regimens revealed the necessity for sub-chronic/chronic dosing on a consistent schedule with a wash out period, to obtain long-lasting attention and memory impairment. These experiments revealed for the first time that sub-chronic KET treatment elicited a new phenotype in male C57BL/6J mice: audible vocalizations. KET mice emitted audible vocalizations within 10 min of receiving KET injections, and vocalizations were detected up to 30 min after injection. Experiments conducted to determine the efficacy of SK channel agonists and antagonists on SK channels to modulate attention and memory in the ketamineinduced model of psychosis in C57BL/6J mice demonstrated for the first time that the SK2 channel activator, CyPPA, significantly reduced memory impairment and decreased the attention deficit of KET mice. A new method of analysis for trace fear conditioning freezing responses permitted a more accurate measurement of the ability of mice to discriminate the predicted delivery of shock during trace versus CS intervals. The application of the novel analytical method further demonstrated that KET mice failed to accurately discriminate these intervals, due to their impaired attention and acquisition of the trace conditioned response. This study examined the efficacy of SK channel drugs to rescue cognitive impairments in a pharmacological mouse model of schizophrenia. The results indicate that SK2 subunit activators and blockers, may provide a new therapeutic treatment for memory impairment and attention deficits seen in schizophrenic disorders. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2020. / FAU Electronic Theses and Dissertations Collection Calcium-activated potassium channels Calcium-dependent potassium channels Mice Ketamine Psychoses
330	Extravasering vid behandlingar med aciklovir, kaliumfosfat och kaliumklorid inom intensivvården Karim, Lara January 2020 (has links) Extravasation is a condition that can occur during an intravenous administration. This means that the solution administered intravenously goes extravascular. Depending on physiochemical properties of the substance and solution, this can cause different severity of the damage. Extravasation of acyclovir, potassium phosphate and potassium chloride causes severe tissue damage that can, in worst case, lead to tissue necrosis. The purpose was therefore to investigate how acyclovir, potassium phosphate and potassium chloride causes tissue damage due to pH and osmolality and how the tissue damage can be avoided. To answer the purpose, a comprehensive literature search was conducted on three different databases; Pubmed, CINAHL and Cochrane. The literature search was in progress from February 4 to May 14 2020. The literature search generated a total of 42 articles and case reports, of which 13 of these were relevant for the purpose. These 13 articles consisted of two animal studies, three experimental observational studies, two guidelines from Västra Götalands Region, three case reports about acyclovir and three case reports of potassium phosphate and potassium chloride. Two of the experimental observational studies showed that potassium chloride could be diluted with 100 mL of 0,9% sodium chloride or 5% dextrose in water to possibly avoid tissue damage due to extravasation. Such results were not found for either acyclovir or potassium phosphate. The conclusion that could be drawn was that acyclovir caused tissue damage because of its alkaline pH, potassium phosphate because of its hyperosmolality and potassium chloride because of its acidic pH and its hyperosmolality. One way to possibly avoid tissue damage caused by extravasation is to dilute the substances with higher dilution volumes. However, due to the lack of reliability of the included studies, it cannot be safely concluded that tissue damage can be avoided. Extravasation acyclovir potassium phosphate potassium chloride pH osmolality tissue damage Social and Clinical Pharmacy Samhällsfarmaci och klinisk farmaci

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