Global ETD Search

21	Rheology and photonics of complex biological systems / Rhéologie et photonique des systèmes biologiques complexes Saab-Estephan, Marie-Belle 23 June 2010 (has links) La rhéologie et la photonique de divers systèmes biologiques complexes allant des protéines jusqu'aux bactéries et cellules ont été étudiées dans cette thèse. Ces travaux se basent sur deux grands thèmes, où le premier traite la modification des surfaces solides avec des molécules biologiques tandis que le second se concentre sur l'étude des effets des différentes drogues sur des cellules malignes, et non malignes par des techniques microscopiques complémentaires. Dans ce travail, des matrices orientées de films de polyélectrolytes/membrane pourpre ont été produites et étudiées en fonction de différentes conditions physico-chimiques. Des peptides spécifiques présentant de propriétés de reconnaissance de surface pour le ZnSe et le Si ont été isolées par la technologie de Phage Display. Le peptide de Si a été utilisé dans la détection des molécules avec une microcavité de silicium poreux, et ceci a montré un meilleur seuil de détection comparé à celui des autres méthodes classiques de fonctionnalisation. Le peptide spécifique de ZnSe a été utilisé afin de démontrer son utilité pour la préservation de l'activité et structure secondaire native des biomolécules adsorbées. Concernant les cellules, une différence de réponse, entre deux types de cellules épithéliales mammaires malignes MCF-7 et non-malignes HMEC184A1, sous traitement avec la curcumine, a été démontrée sur les cellules vivantes et fixées. Après, une évaluation des forces d'interaction entre un agent clinique anticancéreux cetuximab (CET) et EGFR (Epidermal Growth Factor Receptor) sur la surface des cellules de carcinome épithéliales A431 a été réalisé via la microscopie à force atomique en mode force. Une différence sur l'élasticité des cellules et sur les forces de liaison EGFR-CET a été notée quand le CET a été combiné avec d'autres drogues thérapeutiques. Les résultats de nos études d'imagerie fonctionnelle pourraient ouvrir de nouvelles voies dans la recherche de traitements contre le cancer. / The rheology and photonics of various complex biological systems ranging from proteins to bacteria and cells have been studied in this thesis. The work is organized around two major themes where the first one deals with surface modifications for adsorption of biological molecules while the second one focuses on comparative studies of non-malignant and cancerous cells under the effect of various drugs, using complementary microscopic techniques. In this work, oriented polyelectrolyte/purple membrane matrices have been produced and studied under different physico-chemical conditions. Peptides with surface recognition properties for the ZnSe and Si semiconductors have been isolated by Phage Display technology. The Si specific peptide has been used in detection of molecules with a porous silicon microcavity, providing a considerably enhanced detection resolution compared to traditional functionalization methods. The specific peptide of ZnSe has been used to demonstrate its utility in preservation of activity and native secondary structure of biomolecules in their adsorbed form. In the second part of my work concerning the cells, a different response (in morphology and elasticity) under treatment with curcumin, for two types of malignant MCF-7 and non-malignant HMEC184A1 mammary epithelial cells was demonstrated on living and fixed cells. Then, an evaluation of binding interactions between a clinical anticancer agent Cetuximab (CET) and the Epidermal Growth Factor Receptor (EGFR) on the surface of epithelial carcinoma A431 cells was performed via force mode atomic force microscopy. A difference was noted on the elasticity of cells and also on the EGFR-CET binding forces when CET was combined with other therapeutic drugs. The results of our functional imaging studies might open new avenues in the research for treatments against cancer. Bactériorhodopsine Biofonctionnalisation Biodétection Drogues thérapeutiques Cellules malignes et non-malignes Microscopies Bacteriorhodopsin Biofunctionalization Biosensing Therapeutic drugs Malignant and non-malignant cells Microscopies
22	Biophysical and magnetic resonance studies of membrane proteins Orwick, Marcella Christine January 2011 (has links) Bacteriorhodopsin (bR) is a 7TM membrane protein expressed in Halobacterium salinarum. Due to its stability and high expression levels, bR serves as a model for other 7TM membrane proteins. Neurotensin receptor 1 (NTS1) is a member of pharmacologically relevant G protein-coupled receptor superfamily, and is the high affinity receptor for neurotensin, a 13mer peptide that can be found in the brain, gut, and central nervous system. NTS1 is a target for Parkinson’s, Schizophrenia, and drug addiction. This thesis aims to develop pulsed magnetic resonance techniques and sample preparation forms for high resolution structural studies on 7TM proteins. In this thesis, pulsed dipolar distance electron paramagnetic resonance (EPR) methods for the study of proteins in their native membrane are established. bR is spin-labeled, and a wellresolved distance distribution is measured in excellent agreement with other structural data. Preliminary distance data for a photoexcited state of bR suggests quaternary rearrangements in the native membrane that are agreement with published AFM results. A fitting method is developed to enable measurements of systems with rapid signal decay, a common feature in reconstituted systems studied by pulsed EPR methods. A physical chemical characterization of nanosized-bilayer discs termed Lipodisqs®, and the successful incorporation of bR is presented. Lipodisqs® are formed from DMPC and a polymer that is able to solubilize DMPC vesicles into discrete particles. Lipodisqs® possess a broad phase transition with increased lipid ordering compared to a DMPC dispersion. The SMA polymer interacts with the lipid tails, but does not perturb the headgroup. BR is incorporated in the monomeric form, and EPR dynamic and distance measurements confirm that Lipodisqs® preserve the native structure of bR, whilst detergent solubilisation increases the overall mobility compared to bR in its native membrane, suggesting that Lipodisqs® serve as an excellent medium for EPR studies on 7TM membrane proteins. A cysteine-depleted mutant of active, ligand binding NTS1 is constructed. Cysteines are reintroduced at positions that may be able to monitor agonist and inverse-agonist induced conformational and dynamic changes. A spin-labeling protocol is developed, and preliminary EPR measurements are discussed. Dynamic nuclear polarization (DNP) results are presented with uniformly-<sup>13</sup>C-labelled bR in the PM, resulting in a DNP enhancement of 16 using the biradical nitroxide polarizing agent, TOTAPOL. DNP-enhanced solid state NMR (ssNMR) is typically carried out at cryogenic temperatures, resulting in poor spectral resolution compared to ambient temperatures. Two different forms of samples are prepared that could potentially lead to better-resolved DNP spectra. BR is reverse labelled by adding natural abundance amino acids to isotopically labelled growth medium, resulting in the partial depletion of resonance signals that may obscure and crowd the NMR spectra. A crystalline sample of bR is prepared using the LCP method for crystallization, which is to date the most successful method for the crystallization of GPCRs. In summary, the first pulsed dipolar measurements of a protein in its native membrane are shown, Lipodisqs® are characterized and found to be a suitable medium for structural and functional studies of 7 TM membrane proteins, the first preliminary EPR studies on a ligand binding GPCR are presented, and novel sample preparation techniques are developed for the nitroxide-based DNP enhancement of ssNMR data. This thesis opens up several avenues for future research into 7TM membrane proteins. 572.696
23	Struktur-Funktionsbeziehung einer lichtgetriebenen Protonenpumpe aus Coccomyxa subellipsoidea Fudim, Roman 05 December 2018 (has links) Die lichtgetriebene Protononenpumpe Bacteriorhodopsin (BR) aus Halobacterium salinarum stellt den Prototyp lichtgetriebener Protonenpumpen dar und wurde durch strukturelle und spektroskopische Untersuchungen als einfaches Modellsystem für Protonentransferschritte in Proteinen etabliert. Aufgrund der schlechten heterologen Expression von BR in Wirtszellen konnten elektrophysiologische Untersuchungen unter kontrollierter Membranspannung jedoch nur vereinzelt durchgeführt werden und erlaubten kaum Rückschlüsse zum Einfluss einzelner Aminosäuren auf die Pumpkraft des Proteins. Das dem BR nahverwandte Coccomyxa subellipsoidea Rhodopsin (CsR) hingegen zeigte gegenüber BR etwa 8-fach größere Photoströme in elektrophysiologischen Messungen in Xenopus laevis Oozyten und ermöglichte so eine umfangreiche elektrophysiologische Charakterisierung. Dabei konnten Unterschiede zu BR, wie etwa die erhöhte Spannungsabhängigkeit oder die erhöhte Toleranz der Pumpkraft gegenüber dem extrazellulären pH, auf Grundlage des Sequenzvergleiches nicht geklärt werden. Entsprechend wurden, um weitere mechanistische Details zu klären, im Rahmen dieser Arbeit spektroskopische und röntgenkristallographische Untersuchungen an CsR vorgenommen. Dabei konnte eine hochauflösende Kristallstruktur von CsR gelöst werden, die es erlaubt, mechanistische Unterschiede zu anderen lichtgetriebenen Protonenpumpen auf strukturelle Unterschiede zurück zu führen. So konnte die erhöhte Spannungsabhängigkeit mit der besonderen Komposition des zytoplasmatischen Halbkanals und die erhöhte Toleranz gegenüber dem äußeren pH mit der einzigartigen Konfiguration des Protonenfreisetzungskomplexes in CsR assoziiert werden. Letztlich konnte auf Grundlage der Struktur CsR, durch rationales Design, in einen licht-induzierten Protonenkanal transformiert werden, der bereits bei physiologischen Bedingungen quasisymmetrische bidirektionale Ströme zeigt. / The light-driven proton pump bacteriorhodopsin (BR) from Halobacterium salinarum represents the prototype of light-driven proton pumps and was established by structural and spectroscopic investigations as a simple model system for proton transfer steps in proteins. However, due to the poor heterologous expression of BR in host cells, electrophysiological investigations under controlled membrane potential could only be carried out in some cases and hardly allowed conclusions to be drawn about the influence of individual amino acids on the pumping force of the protein. Coccomyxa subellipsoidea rhodopsin (CsR), which is closely related to BR, showed about 8 times larger photocurrents in electrophysiological measurements in Xenopus laevis oocytes than BR and thus enabled an extensive electrophysiological characterization. Observed differences to BR, such as the increased voltage dependence or the increased tolerance of the pumping force to the extracellular pH, could not be clarified solely on the basis of the sequence comparison. Accordingly, in order to clarify further mechanistic details, spectroscopic and X-ray crystallographic investigations on CsR were carried out within the scope of this work. A high-resolution crystal structure of CsR was solved, which allows to link mechanistic differences to other light-driven proton pumps to structural differences. Thus, the increased voltage dependence could be addressed by the special composition of the cytoplasmic half channel and the increased tolerance to the external pH could be associated with the unique configuration of the proton release complex in CsR. Finally, by a structure-based rational design approach, CsR was transformed into a light-induced, which shows almost symmetrical bidirectional currents already under physiological conditions. Protonenpumpen Rhodopsin Spektroskopie Strukturbiologie Bakteriorhodopsin Proton pumps Rhodopsin Spectroscopy Structural biology Bacteriorhodopsin 570 Biowissenschaften; Biologie WE 5440 ddc:570
24	Biophysical studies of peptides with functions in biotechnology and biology Madani, Fatemeh January 2012 (has links) My thesis concerns spectroscopic studies (NMR, CD and fluorescence) of peptides with functions in biotechnology and biology, and their interactions with a model membrane (large unilamellar phospholipid vesicles). The resorufin-based arsenical hairpin binder (ReAsH) bound to a short peptide is a useful fluorescent tag for genetic labeling of proteins in living cells. A hairpin structure with some resemblance to type II β-turn was determined by NMR structure calculations (Paper I). Cell-penetrating peptides (CPPs) are short (30-35 residues), often rich in basic amino acids such as Arg. They can pass through the cell membrane and deliver bioactive cargoes, making them useful for biotechnical and pharmacological applications. The mechanisms of cellular uptake and membrane translocation are under debate. Understanding the mechanistic aspects of CPPs is the major focus of Papers II, III, and IV. The effect of the pyrenebutyrate (PB) on the cellular uptake, membrane translocation and perturbation of several CPPs from different subgroups was investigated (Paper II). We concluded that both charge and hydrophobicity of the CPP affect the cellular uptake and membrane translocation efficiency. Endosomal escape is a crucial challenge for the CPP applications. We modeled the endosome and endosomal escape for different CPPs to investigate the corresponding molecular mechanisms (Papers III and IV). Hydrophobic CPPs were able to translocate across the model membrane in the presence of a pH gradient, produced by bacteriorhodopsin proton pumping, whereas a smaller effect was observed for hydrophilic CPPs. Dynorphin A (Dyn A) peptide mutations are associated with neurodegenerative disorders, without involvement of the opioid receptors. The non-opioid activities of Dyn A may involve membrane perturbations. Model membrane-perturbations by three Dyn A mutants were investigated (Paper V). The results showed effects to different degrees largely in accordance with their neurotoxic effects. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Manuscript.</p> Genetic fluorescence label Biarsenical tetracysteine motif Cell-penetrating peptides Large unilamellar vesicles Pyrenebutyrate Endosomal escape Membrane perturbation Bacteriorhodopsin Dynorphin
25	Biochemical And Genetic Characterization Of Halobacterium Salinarium Strain Isolated From Tuz Lake In Central Anatolia Cakici, Ozgur 01 January 2004 (has links) (PDF) In this study, a halophilic archaea Halobacterium salinarium TG13 which is isolated from Tuz Lake in Central Anatolia was characterized biochemically and genetically. Halobacterium salinarium DSM3754 and Halobacterium salinarium S9 strains were used as a reference strain through the experiments. In biochemical characterization / total protein profiles of strains was compared by using 1D SDS PAGE. Total protein profile of the isolated strain has shown differences. The SDS-PAGE profile of the purified purple membrane showed only single band by coomassie staining. Molecular weight and pI values of the protein isolated from Halobacterium salinarium TG13 and Halobacterium salinarium S9 were estimated by 2D SDS-PAGE as 22 kD and 5.4, respectively. Photoactivity of purple membrane of the strains was investigated. pH change of the purple membranes were observed upon illumination. This protein might be corresponded to bacteriorhodopsin. In genetical characterization / polymorphism of genomic DNA of strains was scanned with RAPD-PCR. Plasmid DNA profiles of strains was determined to make use of RFLP technique. RAPD-PCR and RFLP analyses have shown that Halobacterium salinarium TG13 is different strain from reference Halobacterium salinarium strains (H.s. S9 and H.s. DSM3754). QR Bacteria 75-99.5
26	Molecular Dynamics Simulation Of Transmembrane Helices And Analysis Of Their Packing In Integral Membrane Proteins Iyer, Lakshmanan K 09 1900 (has links) (PDF) No description available. Integral Membrane Proteins (IMPs) Transmembrane Helices Bacteriorhodopsin Rhodopsin Transmembrane Helix Proline Helix I1 Proteins - Molecular Dynamics Biochemistry
27	Nonlinear optical properties of modified Bacteriorhodopsins Krasnaberski, Aliaksei 30 January 2008 (has links) Recent years have shown a dramatic growth of research activity in searching of materials that exhibit nonlinear optical (NLO) behaviours. Later investigations have shown that molecule-based organic materials and biomaterials possess advantages in NLO characteristics. This thesis is devoted to the theoretical and experimental study of the second-order nonlinear optical properties of native and modified bacteriorhodopsins. A hybrid quantum mechanical/molecular mechanical-configuration interaction (QM/MM-CI) method has been used to determine the nonlinear behaviour of modified BR. The calculated structures are the ground state and M1 state of wild type BR, several BR variants, the BR mutants W86F, W189F, W182F, W138C, Y185F, and Y83F as well as a photoreceptor NpSRII. The first hyperpolarizability of two available BR mutants W86F and D85C has been determined by means of the HRS technique. The experimentally determined first hyperpolarizability value for the mutant W86F is in good agreement with that obtained theoretically. Simultaneously with the time-resolved absorption spectroscopy measurements, the time-dependent HRS measurements were performed. Changes in the HRS signal during the photocycle were detected. The kinetics of time-resolved HRS and flash spectroscopy measurements of BR and the BR mutants T46C, R225C, R227C, D96C, and D85C were compared. The obtained kinetic constant are comparable with those determined by means of absorption spectroscopy. However, an unexpected decrease in the HRS intensity during the M to N transition was observed. The program "MultiFit" (written in the Delphi environment) as well as data acquisition software (written in the C environment) can be found online at: http://repositorium.uni-osnabrueck.de/bitstream/urn:nbn:de:gbv:700-2008020119/4/MultiFit.zip and: http://repositorium.uni-osnabrueck.de/bitstream/urn:nbn:de:gbv:700-2008020119/5/TRAS.zip Bacteriorhodopsin first hyperpolarizability Hyper-Raleigh scattering technique 29 - Physik, Astronomie ddc:570
28	Estudo de propriedades estruturais e eletrônicas de retinais e de retinais ligados à lisina via base de Schiff protonada / Study of the structural and electronic properties of retinals and retinals linked to lysine through a protonated Schiff base Savedra, Ranylson Marcello Leal 11 July 2008 (has links) As transições eletrônicas que apresenta as energias mais baixas no retinal e em quatro retinais sintéticos foram analisadas em dois diferentes ambientes: no vácuo e ligados à proteína bacterioopsina por uma base de Schiff protonada, utilizando diversos métodos de química teórica. Os resultados aqui apresentados fornecem indicativos de que três estados eletrônicos estão envolvidos na formação da primeira banda de absorção dos aldeídos, enquanto que, no caso dos compostos ligados à proteína apenas dois estados estariam envolvidos. As análises discutidas neste trabalho também sugerem uma possível explicação para o envolvimento de dois estados eletrônicos excitados no processo de fotoisomerização do retinal ligado à bacterioopsina. / Low-lying electronic transitions of retinal and of four synthetic retinals were analyzed in two different environments: in vacuum and linked to bacterioopsin through a protonated Schiff base, employing several methods of theoretical chemistry. The results here reported suggest that the first absorption band of the aldehydes involves three electronic states, while for the case of protein linked compounds, two states would be embraced. Our discussions also provided a possible explanation about the involvement of two electronic excited states in the photoisomerization process of retinal linked to bacterioopsin. all-trans-retinal bacteriorhodopsin bacteriorodopsina QM/MM QM/MM retinais análogos retinal analog TDDFT TDDFT TDHF TDHF todo-trans-retinal ZINDO/S-CI ZINDO/S-CI
29	Apparatus to Deliver Light to the Tip-sample Interface of an Atomic Force Microscope (AFM) Thoreson, Erik J. 03 October 2002 (has links) "An apparatus for the delivery of radiation to the tip-sample interface of an Atomic Force Microscope (AFM) is demonstrated. The Pulsed Light Delivery System (PLDS) was fabricated to probe photoinduced conformational changes of molecules using an AFM. The PLDS is 67 mm long, 59 mm wide, and 21 mm high, leaving clearance to mount the PLDS and a microscope slide coated with a thin film of photoactive molecules beneath the cantilever tip of a stand-alone AFM. The PLDS is coupled into a fiber pigtailed Nd:Yag frequency doubled laser, operating at a wavelength of 532 nm. The radiation delivered to a sample through the PLDS can be configured for continuous or pulsed mode. The maximum continuous wave (CW) power delivered was 0.903 mW and the minimum pulse width was 12.3 ms (maximal 401 ms), corresponding to a minimal energy of 0.150 nJ (maximal 362 nJ), and had a cycle duration of 10.0 ms. The PLDS consists of micro-optical components 3.0 mm and smaller in diameter. The optical design was inspired by the three-beam pick-up method used in CD players, which could provide a method to focus the pulse of light onto the sample layer. In addition, the system can be easily modified for different operational parameters (pulse width, wavelength, and power). As proof that the prototype design works, we observed a photoinduced â€˜bimetallicâ€™ bending of the cantilever, as evidenced by observing no photoinduced bending when a reflective-coated cantilever was replaced by an uncoated cantilever. Using the apparatus will allow investigation of many different types of molecules exhibiting photoinduced isomerization." purple membrane photomechanics photoinduced conformation change photocycle photoactive bacteriorhodopsin photoinduced bimetallic bending atomic force microscope tip-sample interface molecular conformation PLDS photoreactive AFM Atomic force microscopy
30	Hochohmige porenüberspannende Lipidmembranen: Elektrochemische Untersuchungen zur Aktivität von Gramicidin und Bacteriorhodpsin / Highly insulating pore-spanning membranes: electrochemical investigations on the activity of gramicidin and bacteriorhodopsin Schmitt, Eva Katharina 28 April 2009 (has links) No description available. 540 Chemie Mathematics and Computer Science Lipidmembranen poröse Substrate Gramicidin Bacteriorhodopsin Impedanzspektroskopie lipid bilayers porous substrates gramicidin bacteriorhosopsin impedance spectroscopy 42.12 Biophysik

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