864 resultados para POROUS MEMBRANES


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It is well accepted that structural studies with model membranes are of considerable value in understanding the structure of biological membranes. Many studies with models of pure phospholipids have been done; but the effects of divalent cations and protein on these models would make these studies more applicable to intact membrane. The present study, performed with above view, is a structural analysis of divalent io~cardio1ipin complexes using the technique of x-ray diffraction. Cardiolipin, precipitated from dilute solution by divalent ionscalcium, magnesium and barium, contains little water and the structure formed is similar to the structure of pure cardiolipin with low water content. The calcium-cardiolipin complex forms a pure hexagonal type II phase that exists from 40 to 400 C. The molar ratio of calcium and cardiolipin in the complex is 1 : 1. Cardiolipin, precipitated with magnesium and barium forms two co-existing phases, lamellar and hexagonal, the relative quantity of the two phases being dependent on temperature. The hexagonal phase type II consisting of water filled channels formed by adding calcium to cardiolipin may have a remarkable permeability property in intact membrane. Pure cardiolipin and insulin at pH 3.0 and 4.0 precipitate but form no organised structure. Lecithin/cardiolipin and insulin precipitated at pH 3.0 give a pure lamellar phase. As the lecithin/cardiolipin molar ratio changes from 93/7 to SO/50, (a) the repeat distance of the lamellar changes from 72.8 X to 68.2 A; (b) the amount of protein bound increases in such a way that cardiolipin/insulin molar ratio in the complex reaches a maximum constant value at lecithin/cardiolipin molar ratio 70/30. A structural model based on these data shows that the molecular arrangement of lipid and protein is a lipid bilayer coated with protein molecules. The lipid-protein interaction is chiefly electrostatic and little, if any, hydrophobic bonding occurs in this particular system. So, the proposed model is essentially the same as Davson-Daniellifs model of biological membrane.

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Therllloelynalllics of lllodel 11lel1ll)rane systeills containing 1110nollnsaturatecl I)lloSI)holil) ids is strongly infllienced l)y the I)osition of the C==C dOlll)le })ond in tIle acyl chain. The telllI)eratllres of both chain-nlelting (TM) and La -+ HI! (TH) I)hase traIlsitions are lowered by IIp to 20°C when C==C is Inoved froln positions 6 or 11 to I)osition 9 in an 18-carl)on chain. This work is an attellll)t to ellicidate the uIlderlying Illoleclilar Illechanisllls reSI)Onsi])le for tllese draillatic tllerillodynaillic changes. Mixtllres of di-18: 1 l)hoSI)hatidylethanolanline with C==C at l)ositioIlS 6, 9, 11 were llsed, witll a sI1lall aI1lOlint of I)erdellterated tetradecanol, known to })e a gooel rel)Orter of the cllain Illoleclilar order. SI)ectral second 11I0I1lents were llsed to Illonitor tIle La -+ HII I)hase transition, which was fOllnd to ])e ])road (2-6°C), with a slight llysteresis on heatiIlg/cooling. The orientational order I)rofiles were nleasllred 1lSiIlg 2H Illiclear Illagnetic resonance and changes in these order I)rofiles between La aIld HII I)hases silow l)oth a local increase in order in the vicinity of the C==C bonds and an o\Terall decrease ill the average orientational order of the chain as a whole. These Sll])tle changes recluire })oth high-fidelity SI)ectrosCol)y and a careflll data analysis that takes into aCCOllnt the effects due to l)artiall1lagnetically-indllced orientational ordering of the l)ilayers. In tIle COIltext of SOllle recently rel)Orted cross-relaxation 11leaSlirenlents in Silllilar l)llOSI)llolil)iels, 0111' reslilts sllggest that large-anll)litllde conforlllational changes in the interior of tIle I110del 111eI11])ranes I)lay a 1110re significant role than I)reviollsly thOllght.

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Higher plants have evolved a well-conserved set of photoprotective mechanisms, collectively designated Non-Photochemical Quenching of chlorophyll fluorescence (qN), to deal with the inhibitory absorption of excess light energy by the photosystems. Their main contribution originates from safe thermal deactivation of excited states promoted by a highly-energized thylakoid membrane, detected via lumen acidification. The precise origins of this energy- or LlpH-dependent quenching (qE), arising from either decreased energy transfer efficiency in PSII antennae (~ Young & Frank, 1996; Gilmore & Yamamoto, 1992; Ruban et aI., 1992), from alternative electron transfer pathways in PSII reaction centres (~ Schreiber & Neubauer, 1990; Thompson &Brudvig, 1988; Klimov et aI., 1977), or from both (Wagner et aI., 1996; Walters & Horton, 1993), are a source of considerable controversy. In this study, the origins of qE were investigated in spinach thylakoids using a combination of fluorescence spectroscopic techniques: Pulse Amplitude Modulated (PAM) fluorimetry, pump-probe fluorimetry for the measurement of PSII absorption crosssections, and picosecond fluorescence decay curves fit to a kinetic model for PSII. Quenching by qE (,..,600/0 of maximal fluorescence, Fm) was light-induced in circulating samples and the resulting pH gradient maintained during a dark delay by the lumenacidifying capabilities of thylakoid membrane H+ ATPases. Results for qE were compared to those for the addition of a known antenna quencher, 5-hydroxy-1,4naphthoquinone (5-0H-NQ), titrated to achieve the same degree of Fm quenching as for qE. Quenching of the minimal fluorescence yield, F0' was clear (8 to 130/0) during formation of qE, indicative of classical antenna quenching (Butler, 1984), although the degree was significantly less than that achieved by addition of 5-0H-NQ. Although qE induction resulted in an overall increase in absorption cross-section, unlike the decrease expected for antenna quenchers like the quinone, a larger increase in crosssection was observed when qE induction was attempted in thylakoids with collapsed pH gradients (uncoupled by nigericin), in the absence of xanthophyll cycle operation (inhibited by DTT), or in the absence of quenching (LlpH not maintained in the dark due to omission of ATP). Fluorescence decay curves exhibited a similar disparity between qE-quenched and 5-0H-NQ-quenched thylakoids, although both sets showed accelerated kinetics in the fastest decay components at both F0 and Fm. In addition, the kinetics of dark-adapted thylakoids were nearly identical to those in qEquenched samples at F0' both accelerated in comparison with thylakoids in which the redox poise of the Oxygen-Evolving Complex was randomized by exposure to low levels of background light (which allowed appropriate comparison with F0 yields from quenched samples). When modelled with the Reversible Radical Pair model for PSII (Schatz et aI., 1988), quinone quenching could be sufficiently described by increasing only the rate constant for decay in the antenna (as in Vasil'ev et aI., 1998), whereas modelling of data from qE-quenched thylakoids required changes in both the antenna rate constant and in rate constants for the reaction centre. The clear differences between qE and 5-0H-NQ quenching demonstrated that qE could not have its origins in the antenna alone, but is rather accompanied by reaction centre quenching. Defined mechanisms of reaction centre quenching are discussed, also in relation to the observed post-quenching depression in Fm associated with photoinhibition.

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The a-tocopherol transfer protein (a-TTP) is responsible for the retention of the atocopherol form of vitamin E in living organisms. The detailed ligand transfer mechanism by a-TTP is still yet to be fully elucidated. To date, studies show that a-TTP transfers a-tocopherol from late endosomes in liver cells to the plasma membrane where it is repackaged into very low density lipoprotein (VLDL) and released into the circulation. Late endosomes have been shown to contain a lipid known as lysobisphosphatidic acid (LBP A) that is unique to this cellular compartment. LBPA plays a role in intracellular trafficking and controlling membrane curvature. Taking these observations into account plus the fact that certain proteins are recruited to membranes based on membrane curvature, the specific aim of this project was to examine the effect of LBP A on a-TTP binding to lipid membranes. To achieve this objective, dual polarization interferometry (DPI) and a vesicle binding assay were employed. Whilst DPI allows protein binding affinity to be measured on a flat lipid surface, the vesicle binding assay determines protein binding affinity to lipid vesicles mimicking curved membranes. DPI analysis revealed that the amount of a-TTP bound to lipid membranes is higher when LBPA is present. Using the vesicle binding assay, a similar result was seen where a greater amount of protein is bound to large unilamellar vesicles (LUV s) containing LBP A. However, the effect of LBP A was attenuated when small unilamellar vesicles (SUVs) were replaced with LUVs. The outcome of this project suggests that aTTP binding to membranes is influenced by membrane curvature, which in turn is induced by the presence of LBP A.

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Le myo-inositol (MI) est un soluté organique impliqué dans diverses fonctions physiologiques de la cellule dont la signalisation cellulaire. Il est également un osmolyte compatible reconnu. Trois co-transporteurs de type actif secondaire responsables de son absorption ont été identifiés. Deux d’entre eux sont couplés au transport du sodium (SMIT1 et SMIT2) et le troisième est couplé au transport de protons (HMIT). L’objectif de cette étude a été la caractérisation du transport du MI par SMIT2 dans des membranes en bordure en brosse (BBMv) issues du rein de lapin et de l’intestin de rat ainsi qu’après expression dans les ovocytes de Xenopus laevis. La quantification de l’ARNm de SMIT1 et de SMIT2 dans le rein nous a appris que SMIT1 est majoritairement présent dans la médullaire alors que SMIT2 est principalement localisé dans le cortex. Ces résultats ont été confirmés par immunobuvardage en utilisant un anticorps dirigé contre SMIT2. Grâce à l’inhibition sélective de SMIT1 par le L-Fucose et de SMIT2 par le D-chiro-inositol (DCI), nous avons démontré que SMIT2 semble le seul responsable du transport luminal de MI dans le tubule contourné proximal avec un Km de 57 ± 14 µM. Pour ce qui est de l’intestin, des études de transport de MI radioactif ont démontré une absence de transport de MI chez le lapin alors que l’intestin de rat présente un transport de MI très actif. Une quantification par qRT-PCR nous a permis de constater que l’intestin de lapin ne semble pas posséder les transporteurs de MI nécessaires. Comme pour le rein, SMIT2 semble le seul transporteur de MI présent au niveau du pôle apical des entérocytes intestinaux chez le rat. Il est chargé du prélèvement du MI de l'alimentation avec un Km de 150 ± 40 µM. Les analyses fonctionnelles exécutées sur SMIT2 de rat en électrophysiologie après expression dans les ovocytes de Xenopus laevis donnent sensiblement les mêmes résultats que pour les BBMv de rein de lapin et d’intestin de rat. Dans les ovocytes, SMIT2 présente une grande affinité pour le MI (270 ± 19 µM) et le DCI (310 ± 60 µM) et aucune affinité pour le L-fucose. Il est ii également très sensible à la phlorizine (16 ± 7 µM). Une seule exception persiste : la constante d’affinité pour le glucose dans les BBMv d’intestin de rat est 40 fois plus petite que celle observée sur les ovocytes de Xenopus laevis. Nous avons également testé la capacité de certains transporteurs de sucre présents à la surface des membranes apicales des entérocytes à prélever le MI. Vu que l'inhibition de ces transporteurs (SGLT1 et GLUT5) ne changeait rien au taux de MI radioactif transporté, nous en avons conclu qu'ils ne sont pas impliqués dans son transport. Finalement, l’efflux de MI à partir du pôle basolatéral des entérocytes n’est pas effectué par GLUT2 puisque ce dernier lorsqu'il est exprimé dans des ovocytes, est incapable de transporter le MI.

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Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal

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Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal

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Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal

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Les tests PAMPA et les tests Caco-2 sont des essais in vitro de l’évaluation de la perméabilité intestinale des médicaments. Ils sont réalisés lors de la phase de découverte du médicament. Les tests PAMPA ne sont pas biologiquement représentatifs de la paroi intestinale, mais ils sont rapides et peu coûteux. Les tests Caco-2 nécessitent plus de 21 jours pour la culture cellulaire et des installations spécifiques sont requises. Ils sont constitués d’une monocouche d’entérocytes à confluence et donc plus biologiquement représentatifs. Il y a un besoin pour le développement d’un essai qui est biologiquement représentatif de la membrane intestinale humaine, rapide et peu coûteux. Le premier but de ce projet était de développer une méthode analytique qui permettrait l’évaluation simultanée de huit médicaments témoins utilisés pour la validation de l’essai de perméabilité. Le deuxième but de ce projet était donc d’améliorer la membrane des tests PAMPA pour proposer un nouveau test : le néoPAMPA. Contrairement au test PAMPA traditionnel, cette membrane est constituée de trois composantes : (1) un filtre poreux qui agit à titre de support, (2) un coussin polydopamine chargé négativement qui sert d’ancrage et qui assure la fluidité de la bicouche et (3) une bicouche lipidique formée par fusion de vésicules. Une méthode analytique HPLC-MS/MS a été validée selon les spécifications de la FDA et de la EMA. Cette méthode a permis de quantifier simultanément les huit médicaments standards utilisés pour le test néoPAMPA. Le test PAMPA traditionnel a été mis en place à titre d’essai control. Les coefficients de perméabilité mesurés pour les huit médicaments au travers de la membrane PAMPA comparaient favorablement aux résultats de la littérature. Les composantes de la membrane néoPAMPA ont été optimisées. Les conditions optimales retenues étaient les filtres de polycarbonate hydrophile ayant des pores de 15 nm, les plaques Costar 12 puits comme dispositif des tests de perméabilité, une bicouche lipidique composée de 70 % DOPC et de 30 % cholestérol cationique ainsi qu’une déposition des liposomes en présence de 150 mM NaCl suivi d’un équilibre d’1 h en présence d’une solution saturée en DOPC. Les stabilités de la cassette de médicaments et des liposomes sont insuffisantes pour le conditionnement commercial des membranes néoPAMPA. Les différentes optimisations réalisées ont permis d’améliorer la membrane néoPAMPA sans toutefois la rendre fonctionnelle. La membrane néoPAMPA n’est toujours pas en mesure de discriminer des molécules en fonction de leur perméabilité attendue.

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In this project, an attempt has been made to study the stability of erythrocyte and lysosomal membranes biochemically. Erythrocytes were chosen for the study because of their ready availability and relative simplicity. Biological membranes forming closed boundaries between compartments of varying composition consist mainly of proteins and lipids. They are asymmetric, fluid structures that are thermodynamically stable and metabolically active. Normal cellular function begins with normal membrane structure and any variation in it may upset the normal functions. The degree of fluidity of a membrane depends on the chain length of its lipids and degree of unsaturation of constituent fatty acids. In response to environmental changes, many cells can regulate composition of their membranes to maintain the overall semi fluid environment necessary for many membrane associated functions. The assembly and Maintenance of membrane structures in cells is a dynamic process. The components are not only synthesized and inserted into a growing membrane but are also continuously degraded at a slower rate. This turnover process varies with each individual molecule.Lysosomes are important in the catabolic processes occurring in the cell. Lysosomes contain hydrolytic enzymes and are stable under normal conditions. In certain pathological conditions, the lysosomal membrane may rupture, releasing the hydrolytic enzymes into the cell and digestion of cell takes place as a whole. This is very dangerous. In normal life processes of multi cellular organisms, lysosomes rupture following the death of a cell and it may have some value as a built in mechanism for selfremoval of dead cells.An attempt has also been made in this project towards developing lysosome membrane stability as an index of fish spoilage during storage. Different membranes within the cell and between cells have different compositions as reflected in the ratio of protein to lipid. The difference is not surprising given the very different functions of membranes

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The laser induced non-destructive photoacoustic technique has been employed to measure the thermal diffusivity of lanthanum phosphate ceramics prepared by the sol–gel route. The thermal diffusivity value was evaluated by knowing the transition frequency between the thermally thin to thermally thick region from the log–log plot of photoacoustic amplitude versus chopping frequency. Analysis of the data was carried out on the basis of the one-dimensional model of Rosencwaig and Gersho. The present investigation reveals that the sintering temperature has great influence on the propagation of heat carriers and hence on the thermal diffusivity value. The results were interpreted in terms of variations in porosity with sintering temperature as well as with changes in grain size.

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A laser-induced photoacoustic technique was employed to investigate thermal transport through nanocrystalline CePO4 samples prepared via the sol–gel route. Evaluation of thermal diffusivity was carried out using the one-dimensional model of Rosencwaig and Gersho for the reflection configuration of the photoacoustic method. Structural analyses of samples revealed that they are nanoporous in nature, possessing micron-sized grains. Analysis of results shows that thermal diffusivity value varies with sintering temperature. Results are explained in terms of the variation in porosity with sintering temperature and the effects of various scattering mechanisms on the propagation of phonons through the nanoporous ceramic matrix. Further analyses confirm that apart from porosity, grain boundary resistance and interface thermal resistance influence the effective value of thermal diffusivity of the samples under investigation.