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Pattern Formation in Membranes with Quenched DisorderSadeghi, Sina 17 November 2014 (has links)
No description available.
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Suspended Polypyrrole Films Supporting Alamethicin Reconstituted Bilayer MembranesNorthcutt, Robert 03 August 2012 (has links)
This thesis presents a novel architecture for a sensing element fabricated from a conducting polymer and a bioderived membrane. The thin film device provides controlled, selective ion transport from a chemical concentration and produces measurable electrical signals, ion storage, and small scale actuation. A chemical gradient applied across a bioderived membrane generates ion flow through protein transporters in the presence of a gating signal. A conducting polymer undergoes ion ingress/egress in the presence of an electrical and chemical potential, which causes a change on the polymers conformal backbone. A ligand (or) voltage gated protein in the bioderived membrane results in ion transport through the bioderived membrane. Integrating the two electroactive materials provides a unique architecture which takes advantage of their similarities in ionic function to produce a device with controlled and selective ion transport. The chemoelectromechanical device is one that couples chemical, electrical, and mechanical potentials through number of ions, dielectric displacement, and strain. The prototype consists of a stacked thin conducting polymer film and bioderived membrane which form three aqueous chambers of varying ionic concentrations. The top chamber contains an electrolytic solution, and the bottom chamber contains deionized water adjacent to the conducting polymer. The current that passes through a conducting polymer for an applied electrical signal is based on the level of doping/undoping and therefore can be used as a method of sensing protein function in the sensing element. This architecture results in a sensing element applicable in real time chemical sensors, volatile organic compound detectors, and bioanalytical sensors. The conducting polymer layer is formed from polypyrrole (PPy) doped with sodium dodecylbenzenesulfonate (NaDBS), and the bilayer lipid membrane is formed from 1,2-diphytanoyl-sn-glycero-3-phosphocholine (DPhPC) reconstituted with the protein alamethicin. The magnitude of current required to span a 175 µm pore was empirically found to be 326.5 A/cm2 and is based on electrode condition, electrode surface area, pyrrole concentration, and electrical potential. A micron-scale pore through a silicon substrate is spanned by a thin PPy(DBS) layer, forming a bridge which supports the bioderived membrane. The bioderived membrane is reconstituted with alamethicin, a voltage-gated protein extracted from trichoderma viride. Ion transport experiments were performed to characterize the PPy(DBS) layer and the bioderived membrane and are represented as electrical equivalents for subsequent analysis. The equivalent impedance of polypyrrole was calculated to be 1.7847±0.1735Ωcm2 and capacitance was calculated to be 1.2673±0.1823µF/cm2. The equivalent impedance of a bioderived membrane was calculated to be 1.654±1.9894MΩcm2, capacitance was calculated to be 1.1221± 0.239µF/cm2, and alamethicin resistance was calculated to be 1.025± 0.7228MΩcm2. Thus, using impedance measurements in the conducting polymer layer, it is proposed that a scaled up sensing element can be fabricated using the suspended polypyrrole supported bioderived membrane.
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The synthesis and characterization of diphenylacetylene containing ion channelsMoszynski, Joanne Marie 03 August 2011 (has links)
This Thesis presents the synthesis, characterization and mechanistic explorations into a series of diphenylacetylene-containing oligoester ion channels. Eighteen final compounds were synthesized and tested for ion transport activity utilizing both vesicle and planar bilayer assays. The oligomers varied in length, hydrophobicity and the nature of the aromatic moiety. Compounds incorporating a modified diphenylacetylene (‘Dip’), or a novel phenyl-extended fluorophore (‘Trip’) were made using a reliable, modular synthesis. The final compounds were prepared in a total of 5 to 11 steps from commercial materials in yields ranging from 10 to 40%.
The compounds’ activity varied considerably; both highly active and completely inactive compounds were discovered. The differences in activity are controlled by structure via the influence of structural variables on the aqueous phase aggregation and the ability of the compound to insert into the bilayer membrane. These structure-activity studies uncovered two highly-active ion transporters, HO2C-Hex-Dip-Hex-Hex-OH and –OPO32- (Hex = 6-hydroxyhexanoyl) which exhibited activity almost 10-fold higher than the fully-saturated oligoesters developed in previous work. In some cases, the transport activity is initially high but declines over a period of 20-30 minutes following compound addition. This suggests that the compound slowly transitions to an environment where it cannot form active channels.
In the bilayer clamp, a variety of behaviours including highly-conducting openings were observed. An apparent voltage-gated response was exhibited by one of the Trip compounds (HO2C-Trip-G(E3)-OH), a property rarely seen for synthetic ion channels.
The Dip and Trip molecules exhibited environment-sensitive fluorescence. The observed Dip excimer-like emission is the second reported instance of this in solution. The Trip compounds are solvatochromic; this property was used to infer their location in the membrane. Partitioning into the membrane was followed by a blue-shifting and increased intensity of the fluorescence emission for both series of compounds. For the Trip isomers, which are significantly more emissive than the Dip molecules, this enhancement in intensity could be visualized by eye.
For the Dip oligomers, the excimer emission is a broad band with variable shape and intensity; it is time-dependent under some conditions. The excimer emission has a sub-nanosecond lifetime in homogenous solution that is significantly prolonged in the presence of vesicle bilayers, in which a number of lifetimes could be detected. Both monomer and excimer emissions can be quenched by aqueous copper, the excimer emission is more efficiently quenched than is the monomer.
The photophysical characteristics of these molecules allowed for a variety of experiments designed to probe their membrane partitioning and localization behaviours. The results indicate the formation of a complex mixture of interconverting monomeric and aggregate species as the compounds move from water to the bilayer. The slow evolution of the mixture is consistent with the times noted for loss of membrane activity in transport assays. From these data a new model that describes the transport process is proposed. The key feature of this model is that transport must occur via a species that forms quickly upon the mixing of the components. Possible structures of the intermediates formed are discussed. / Graduate
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Effects of eicosapentaenoic acid-containing phospholipids on the formation of membrane proteins from Shewanella livingstonensis Ac10 / Shewanella livingstonensis Ac10 の膜タンパク質生成にエイコサペンタエン酸含有リン脂質が及ぼす影響 / # ja-KanaSugiura, Miwa 25 September 2018 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第21379号 / 農博第2303号 / 新制||農||1071(附属図書館) / 学位論文||H30||N5152(農学部図書室) / 京都大学大学院農学研究科応用生命科学専攻 / (主査)教授 栗原 達夫, 教授 植田 充美, 教授 小川 順 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DGAM
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Fundamental Study Of Mechanical And Chemical Degradation Mechanisms Of Pem Fuel Cell MembranesYoon, Wonseok 01 January 2010 (has links)
One of the important factors determining the lifetime of polymer electrolyte membrane fuel cells (PEMFCs) is membrane degradation and failure. The lack of effective mitigation methods is largely due to the currently very limited understanding of the underlying mechanisms for mechanical and chemical degradations of fuel cell membranes. In order to understand degradation of membranes in fuel cells, two different experimental approaches were developed; one is fuel cell testing under open circuit voltage (OCV) with bi-layer configuration of the membrane electrode assemblies (MEAs) and the other is a modified gas phase Fenton's test. Accelerated degradation tests for polymer electrolyte membrane (PEM) fuel cells are frequently conducted under open circuit voltage (OCV) conditions at low relative humidity (RH) and high temperature. With the bi-layer MEA technique, it was found that membrane degradation is highly localized across thickness direction of the membrane and qualitatively correlated with location of platinum (Pt) band through mechanical testing, Infrared (IR) spectroscopy, fluoride emission, scanning electron microscopy (SEM), transmission electron microscopy (TEM), and energy dispersive spectroscopy (EDS) measurement. One of the critical experimental observations is that mechanical behavior of membranes subjected to degradation via Fenton's reaction exhibit completely different behavior with that of membranes from the OCV testing. This result led us to believe that other critical factors such as mechanical stress may affect on membrane degradation and therefore, a modified gas phase Fenton's test setup was developed to test the hypothesis. Interestingly, the results showed that mechanical stress directly accelerates the degradation rate of ionomer membranes, implying that the rate constant for the degradation reaction is a function of mechanical stress in addition to commonly known factors such as temperature and humidity. Membrane degradation induced by mechanical stress necessitates the prediction of the stress distribution in the membrane under various conditions. One of research focuses was on the developing micromechanism-inspired continuum model for ionomer membranes. The model is the basis for stress analysis, and is based on a hyperelastic model with reptation-inspired viscous flow rule and multiplicative decomposition of viscoelastic and plastic deformation gradient. Finally, evaluation of the membrane degradation requires a fuel cell model since the degradation occurs under fuel cell operating conditions. The fuel cell model included structural mechanics models and multiphysics models which represents other phenomena such as gas and water transport, charge conservation, electrochemical reactions, and energy conservation. The combined model was developed to investigate the compression effect on fuel cell performance and membrane stress distribution.
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Synthesis and functional properties of triarylamine self-assemblies in conducting devices : electronic, ionic, and water transport systems / Synthèse et propriétés fonctionnelles d'auto-assemblages supramoléculaires de triarylamines : transport d'électrons, d'ions et de molécules d'eauSchneider, Susanne 23 September 2016 (has links)
Ce projet de thèse étudie la synthèse et les propriétés des triarylamines pour le transport d'électrons, d'ions ou de molécules d'eau, en se basant sur les propriétés d'auto-assemblage et de conductivité de certaines triarylamines, récemment découvertes par notre équipe. La thèse débute par une introduction sur la chimie supramoléculaire et les polymères supramoléculaires, et aborde ensuite dans son deuxième chapitre la synthèse et les propriétés d'analogues macrocycliques de triarylamine présentant des propriétés électromagnétiques intéressantes. Dans le chapitre suivant, ce travail de thèse explore l'applicabilité des triarylamines pour le transport biomimétique des ions métalliques et des molécules d'eau à travers des membranes de bicouches lipidiques. Le dernier chapitre de cette thèse s'intéresse ensuite à la fabrication de surfaces conductrices organiques / inorganiques hybrides par dopage de surfaces non conductrices avec des assemblages de triarylamines. / Based on the navel and highly interesting self-assembly properties found for certain triarylamines, together with the resulting conducting properties, this PhD project investigates the synthesis and properties of triarylamines towards the transport of electrons, ions or water molecules. The thesis starts with an introduction on supramolecular chemistry and supramolecular polymers, and then discuss in its second chapter the synthesis and properties of macrocyclic triarylamine analogues with interesting electromagnetic properties. ln the following third chapter this thesis work explores the applicability of triarylamines towards the biomimetic transport of metal ions and water molecules through lipid bilayer membranes. The last chapter of this thesis then deals with the fabrication of hybrid organic/inorganic conducting surfaces through doping of non-conducting surfaces with triarylamine assemblies.
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Propriétés électrophysiologiques des canaux ioniques formés par la toxine nématicide Cry5Ba du bacille de Thuringe dans les bicouches lipidiques planesKarabrahimi, Valbona 04 1900 (has links)
Les toxines Cry sont des protéines synthétisées sous forme de cristaux par la bactérie bacille de Thuringe pendant la sporulation. Elles sont largement utilisées comme agents de lutte biologique, car elles sont toxiques envers plusieurs espèces d’invertébrées, y compris les nématodes. Les toxines Cry5B sont actives contre certaines espèces de nématodes parasites, y compris Ankylostoma ceylanicum un parasite qui infeste le système gastro-intestinal des humains. Jusqu’au présent, le mode d’action des toxines Cry nématicides reste grandement inconnu, sauf que leurs récepteurs spécifiques sont des glycolipides et qu’elles causent des dommages importants aux cellules intestinales. Dans cette étude, on démontre pour la première fois que la toxine nématicide Cry5Ba, membre de la famille des toxines à trois domaines et produite par la bactérie bacille de Thuringe, forme des pores dans les bicouches lipidiques planes en absence de récepteurs. Les pores formés par cette toxine sont de sélectivité cationique, à pH acide ou alcalin. Les conductances des pores formés sous conditions symétriques de 150 mM de KCl varient entre 17 et 330 pS, à pH 6.0 et 9.0. Les niveaux des conductances les plus fréquemment observés diffèrent les uns des autres par environ 17 à 18 pS, ce qui est compatible avec l’existence d’arrangement d’un nombre différent de pores élémentaires similaires, activés de façon synchronisée, ou avec la présence d’oligomères de tailles variables et de différents diamètres de pores. / Cry toxins are proteins synthetized as crystal inclusions by the Bacillus thuringiensis bacterium upon sporulation. They are used widely as biological control agents, as they exhibit toxicity to a range of invertebrates, including nematodes. The Cry5B toxins are active against a number of parasitic nematode species, such as Ancylostoma ceylanicum a human gastro-intestinal parasite. So far, the mode of action of nematicidal Cry toxins is largely unknown, except for the facts that their specific receptors are glycolipids and that they cause prominent damage to nematode intestinal cells. In this study, we show for the first time that the nematicidal Cry5Ba toxin, a member of the three domain family of toxins produced by the Bacillus thuringiensis forms pores in receptor-free planar lipid bilayers. The pores formed by the toxin were cation selective, both under acid and alkaline pH conditions. Under symmetrical 150 mM KCl conditions, pore activity was characterized by conductances ranging from 17 to 330 pS, at both pH 6.0 and 9.0. The most frequently observed conductance levels differed from each other by approximately 17 to 18 pS consistent with the existence of clusters of different number of elementary, similar, co-operatively gated pores, or with the presence of variable size oligomers with different pore diameters.
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Desenvolvimento de biosensores de membranas e caracterização da interação entre citocromo c e bicamadas híbridas por ressonância plasmônica de superfície / Development of membrane biosensors and characterization of the interactions between cytochrome c and hybrid bilayer membranes by Surface Plasmon ResonanceTumolo, Tathyana Cristina Martins Cordeiro 19 September 2008 (has links)
O objetivo deste trabalho foi desenvolver biosensores de membranas baseados na técnica de Ressonância Plasmônica de Superfície (SPR) e aplicá-los no estudo da interação do citocromo c (cit c) com modelos de membranas. SPR é uma técnica ótica, que através de medidas de variações de índice de refração (n) próximas a uma interface mensura com alta sensibilidade a adsorção ou ligação de moléculas. Inicialmente desenvolvemos um sistema de gradiente de fluxo acoplado ao SPR, denominado FIG-SPR, e demonstramos a determinação automatizada da variação de n em função da concentração (dn/dC) de diferentes compostos e biopolímeros. O desenvolvimento dos biosensores de membranas iniciou-se com o estudo dos fatores que afetam a formação de uma membrana de bicamada híbrida (HBM). HBMs são compostas de uma monocamada de alcanotiol adsorvida sobre o ouro, e sobre esta uma camada fosfolipídica. A formação da HBM depende da fusão de vesículas em superfícies hidrofóbicas e que não é bem compreendido no nível molecular. Nossos estudos mostraram que na presença de cálcio e espermina a formação da HBM é favorecida, de tal forma que a monocamada de fosfolipídio alcança valores de espessura próximos àqueles previstos, cerca de 20 Å\'. Além disso, mostramos que em soluções de baixa força iônica a camada lipídica não é homogênea. Demonstramos também que a presença de cálcio na concentração 150 mM diminui o tempo de formação da monocamada lipídica cerca de 14 vezes quando comparado ao tempo indicado na literatura. A homogeneidade da HBM e a carga superficial da mesma foram verificadas com a adsorção e a dissociação de cit c e de albumina bovina (BSA). Utilizando HBMs de composição lipídica variada demonstramos a adsorção e a dissociação de cit c induzida por cálcio em HBMs mistas, incluindo um modelo mimético da membrana mitocondrial interna (IMM) constituído de fosfatidilcolina, fosfatidiletanolamina e cardiolipina (PC/PE/CL) na proporção (4,5:3,5:2,0). Demonstramos que a adsorção de cit c nativo segue um perfil cooperativo e padrões esperados de variação de afinidade e cooperatividade em pHs 6,8, 7,4 e 8,0. Um modelo matemático foi desenvolvido para tratar as curvas de ligação de cit c, que é uma adaptação do modelo de Hill para adsorção de proteínas em superfícies. Os resultados de SPR juntamente com dados obtidos por Microscopia de Força Atômica (AFM) sugerem que a ligação cooperativa de cit c com HBM ocorre devido à reorganização das moléculas de CL e formação de domínios fosfolipídicos. O tratamento dos resultados cinéticos da dissociação de cit c por cálcio indica a existência de duas constantes de velocidade de dissociação (kd), sendo a primeira constante (kd1) relacionada à perda das interações eletrostáticas entre a proteína e a HBM, e a segunda (kd2) à perda das interações hidrofóbicas. Além disso, a dissociação do cit c do modelo estudado requer uma concentração mínima de cálcio de 30 µM para se tornar significativa. O estudo da interação entre moléculas de cit c foto-oxidadas (citc405) e a HBM de PC/PE/CL sugerem que ela ocorre com menor afinidade, nos três pHs estudados, se comparados aos resultados com cit c nativo. Além disso, nossos resultados sugerem que o citc405 não é facilmente dissociado por cálcio devido à perda da cooperatividade na interação. Possíveis implicações em eventos celulares destas descobertas, como a liberação do cit c da IMM e a iniciação da apoptose, são discutidas / The aim of this work was to develop membrane biosensors based on Surface Plasmon Resonance (SPR) and to apply them to study the interactions between cytochrome c (cyt c) and model membranes. SPR is an optical technique that provides high-sensitivity measurements of refractive index (n), allowing the characterization of the adsorption and desorption of molecules near interfaces. Initially we developed a flow gradient system connected to SPR, which was called FIG-SPR, and demonstrated the automated determination of the concentration gradient of refractive index (dn/dC) of different materials and biopolymers. The development of the membrane biosensors was initiated by studying the factors that affect the formation of a hybrid bilayer membrane (HBM). HBMs are composed of two monolayers: an alcanethiol monolayer adsorbed on gold over which is adsorbed a layer of phospholipids. The formation of an HBM depends on the fusion of phospholipid vesicles on hydrophobic surfaces, a process that is not well understood at the molecular level. Our results showed that in the presence of calcium and spermine the complete formation of an HBM is facilitated, i.e., the phospholipid monolayer reaches the expected thickness of about 20Å\'. However, in low ionic strength solutions the lipid layer that is formed is not homogeneous. We have also demonstrated that in the presence of 150 mM of calcium the time necessary for the formation of the lipid monolayer is reduced 14 times when compared to the times suggested in the literature. The homogeneity of the HBM and its superficial charge were verified with the adsorption and desorption of cyt c and bovine serum albumine (BSA). The adsorption and desorption of cyt c in different HBMs were studied including a model of the internal mitochondrial membrane (IMM), which is made of phosphatidylcholine, phosphatidylethanolamine and cardiolipin (PC/PE/CL) in the ratio (4,5: 3,5: 2,0). We demonstrated that the adsorption of native cyt c follows a cooperative profile showing expected changes in affinity and cooperativity in different solution pHs of 6,8, 7,4 and 8,0. A mathematical model, which is an adaptation of the Hill model for adsorption of proteins in surfaces, was developed to treat the binding curves of cyt c. The results of SPR together with those obtained by Atomic Force Microscopy (AFM) suggested that the cooperative binding of cyt c in HBMs occurs due to the reorganization of CL molecules and formation of phospholipid domains. The kinetic results of the dissociation of cyt c induced by calcium indicates the existence of two velocity constants (kd), being the larger (kd1) related to the dissociation of cyt c interacting electrostatically with the HBM, and the smaller (kd2) related to the dissociation of cyt c interacting hydrophobically with the HBM. Moreover, the dissociation of cyt c from the HBM requires a minimum calcium concentration of 30 µM. The study of the interaction between photo-oxidized cyt c molecules (cytc405) and the PC/PE/CL HBM suggests that it occurs with smaller affinity when compared with the results obtained with the native cyt c. Moreover, cytc405 is not easily dissociated by calcium due to the loss of the interaction cooperativity with the HBM. Possible implications of these discoveries in cellular events, such as the release of cyt c from the IMM and the initiation of apoptosis, are discussed
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Propriétés électrophysiologiques des canaux ioniques formés par la toxine nématicide Cry5Ba du bacille de Thuringe dans les bicouches lipidiques planesKarabrahimi, Valbona 04 1900 (has links)
Les toxines Cry sont des protéines synthétisées sous forme de cristaux par la bactérie bacille de Thuringe pendant la sporulation. Elles sont largement utilisées comme agents de lutte biologique, car elles sont toxiques envers plusieurs espèces d’invertébrées, y compris les nématodes. Les toxines Cry5B sont actives contre certaines espèces de nématodes parasites, y compris Ankylostoma ceylanicum un parasite qui infeste le système gastro-intestinal des humains. Jusqu’au présent, le mode d’action des toxines Cry nématicides reste grandement inconnu, sauf que leurs récepteurs spécifiques sont des glycolipides et qu’elles causent des dommages importants aux cellules intestinales. Dans cette étude, on démontre pour la première fois que la toxine nématicide Cry5Ba, membre de la famille des toxines à trois domaines et produite par la bactérie bacille de Thuringe, forme des pores dans les bicouches lipidiques planes en absence de récepteurs. Les pores formés par cette toxine sont de sélectivité cationique, à pH acide ou alcalin. Les conductances des pores formés sous conditions symétriques de 150 mM de KCl varient entre 17 et 330 pS, à pH 6.0 et 9.0. Les niveaux des conductances les plus fréquemment observés diffèrent les uns des autres par environ 17 à 18 pS, ce qui est compatible avec l’existence d’arrangement d’un nombre différent de pores élémentaires similaires, activés de façon synchronisée, ou avec la présence d’oligomères de tailles variables et de différents diamètres de pores. / Cry toxins are proteins synthetized as crystal inclusions by the Bacillus thuringiensis bacterium upon sporulation. They are used widely as biological control agents, as they exhibit toxicity to a range of invertebrates, including nematodes. The Cry5B toxins are active against a number of parasitic nematode species, such as Ancylostoma ceylanicum a human gastro-intestinal parasite. So far, the mode of action of nematicidal Cry toxins is largely unknown, except for the facts that their specific receptors are glycolipids and that they cause prominent damage to nematode intestinal cells. In this study, we show for the first time that the nematicidal Cry5Ba toxin, a member of the three domain family of toxins produced by the Bacillus thuringiensis forms pores in receptor-free planar lipid bilayers. The pores formed by the toxin were cation selective, both under acid and alkaline pH conditions. Under symmetrical 150 mM KCl conditions, pore activity was characterized by conductances ranging from 17 to 330 pS, at both pH 6.0 and 9.0. The most frequently observed conductance levels differed from each other by approximately 17 to 18 pS consistent with the existence of clusters of different number of elementary, similar, co-operatively gated pores, or with the presence of variable size oligomers with different pore diameters.
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Desenvolvimento de biosensores de membranas e caracterização da interação entre citocromo c e bicamadas híbridas por ressonância plasmônica de superfície / Development of membrane biosensors and characterization of the interactions between cytochrome c and hybrid bilayer membranes by Surface Plasmon ResonanceTathyana Cristina Martins Cordeiro Tumolo 19 September 2008 (has links)
O objetivo deste trabalho foi desenvolver biosensores de membranas baseados na técnica de Ressonância Plasmônica de Superfície (SPR) e aplicá-los no estudo da interação do citocromo c (cit c) com modelos de membranas. SPR é uma técnica ótica, que através de medidas de variações de índice de refração (n) próximas a uma interface mensura com alta sensibilidade a adsorção ou ligação de moléculas. Inicialmente desenvolvemos um sistema de gradiente de fluxo acoplado ao SPR, denominado FIG-SPR, e demonstramos a determinação automatizada da variação de n em função da concentração (dn/dC) de diferentes compostos e biopolímeros. O desenvolvimento dos biosensores de membranas iniciou-se com o estudo dos fatores que afetam a formação de uma membrana de bicamada híbrida (HBM). HBMs são compostas de uma monocamada de alcanotiol adsorvida sobre o ouro, e sobre esta uma camada fosfolipídica. A formação da HBM depende da fusão de vesículas em superfícies hidrofóbicas e que não é bem compreendido no nível molecular. Nossos estudos mostraram que na presença de cálcio e espermina a formação da HBM é favorecida, de tal forma que a monocamada de fosfolipídio alcança valores de espessura próximos àqueles previstos, cerca de 20 Å\'. Além disso, mostramos que em soluções de baixa força iônica a camada lipídica não é homogênea. Demonstramos também que a presença de cálcio na concentração 150 mM diminui o tempo de formação da monocamada lipídica cerca de 14 vezes quando comparado ao tempo indicado na literatura. A homogeneidade da HBM e a carga superficial da mesma foram verificadas com a adsorção e a dissociação de cit c e de albumina bovina (BSA). Utilizando HBMs de composição lipídica variada demonstramos a adsorção e a dissociação de cit c induzida por cálcio em HBMs mistas, incluindo um modelo mimético da membrana mitocondrial interna (IMM) constituído de fosfatidilcolina, fosfatidiletanolamina e cardiolipina (PC/PE/CL) na proporção (4,5:3,5:2,0). Demonstramos que a adsorção de cit c nativo segue um perfil cooperativo e padrões esperados de variação de afinidade e cooperatividade em pHs 6,8, 7,4 e 8,0. Um modelo matemático foi desenvolvido para tratar as curvas de ligação de cit c, que é uma adaptação do modelo de Hill para adsorção de proteínas em superfícies. Os resultados de SPR juntamente com dados obtidos por Microscopia de Força Atômica (AFM) sugerem que a ligação cooperativa de cit c com HBM ocorre devido à reorganização das moléculas de CL e formação de domínios fosfolipídicos. O tratamento dos resultados cinéticos da dissociação de cit c por cálcio indica a existência de duas constantes de velocidade de dissociação (kd), sendo a primeira constante (kd1) relacionada à perda das interações eletrostáticas entre a proteína e a HBM, e a segunda (kd2) à perda das interações hidrofóbicas. Além disso, a dissociação do cit c do modelo estudado requer uma concentração mínima de cálcio de 30 µM para se tornar significativa. O estudo da interação entre moléculas de cit c foto-oxidadas (citc405) e a HBM de PC/PE/CL sugerem que ela ocorre com menor afinidade, nos três pHs estudados, se comparados aos resultados com cit c nativo. Além disso, nossos resultados sugerem que o citc405 não é facilmente dissociado por cálcio devido à perda da cooperatividade na interação. Possíveis implicações em eventos celulares destas descobertas, como a liberação do cit c da IMM e a iniciação da apoptose, são discutidas / The aim of this work was to develop membrane biosensors based on Surface Plasmon Resonance (SPR) and to apply them to study the interactions between cytochrome c (cyt c) and model membranes. SPR is an optical technique that provides high-sensitivity measurements of refractive index (n), allowing the characterization of the adsorption and desorption of molecules near interfaces. Initially we developed a flow gradient system connected to SPR, which was called FIG-SPR, and demonstrated the automated determination of the concentration gradient of refractive index (dn/dC) of different materials and biopolymers. The development of the membrane biosensors was initiated by studying the factors that affect the formation of a hybrid bilayer membrane (HBM). HBMs are composed of two monolayers: an alcanethiol monolayer adsorbed on gold over which is adsorbed a layer of phospholipids. The formation of an HBM depends on the fusion of phospholipid vesicles on hydrophobic surfaces, a process that is not well understood at the molecular level. Our results showed that in the presence of calcium and spermine the complete formation of an HBM is facilitated, i.e., the phospholipid monolayer reaches the expected thickness of about 20Å\'. However, in low ionic strength solutions the lipid layer that is formed is not homogeneous. We have also demonstrated that in the presence of 150 mM of calcium the time necessary for the formation of the lipid monolayer is reduced 14 times when compared to the times suggested in the literature. The homogeneity of the HBM and its superficial charge were verified with the adsorption and desorption of cyt c and bovine serum albumine (BSA). The adsorption and desorption of cyt c in different HBMs were studied including a model of the internal mitochondrial membrane (IMM), which is made of phosphatidylcholine, phosphatidylethanolamine and cardiolipin (PC/PE/CL) in the ratio (4,5: 3,5: 2,0). We demonstrated that the adsorption of native cyt c follows a cooperative profile showing expected changes in affinity and cooperativity in different solution pHs of 6,8, 7,4 and 8,0. A mathematical model, which is an adaptation of the Hill model for adsorption of proteins in surfaces, was developed to treat the binding curves of cyt c. The results of SPR together with those obtained by Atomic Force Microscopy (AFM) suggested that the cooperative binding of cyt c in HBMs occurs due to the reorganization of CL molecules and formation of phospholipid domains. The kinetic results of the dissociation of cyt c induced by calcium indicates the existence of two velocity constants (kd), being the larger (kd1) related to the dissociation of cyt c interacting electrostatically with the HBM, and the smaller (kd2) related to the dissociation of cyt c interacting hydrophobically with the HBM. Moreover, the dissociation of cyt c from the HBM requires a minimum calcium concentration of 30 µM. The study of the interaction between photo-oxidized cyt c molecules (cytc405) and the PC/PE/CL HBM suggests that it occurs with smaller affinity when compared with the results obtained with the native cyt c. Moreover, cytc405 is not easily dissociated by calcium due to the loss of the interaction cooperativity with the HBM. Possible implications of these discoveries in cellular events, such as the release of cyt c from the IMM and the initiation of apoptosis, are discussed
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