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271	Conformations of single polymer chains on surfaces Ecker, Christof 20 July 2005 (has links) In dieser Arbeit wurden auf Substratoberflächen adsorbierte Polymermoleküle mit Rasterkraftmikroskopie (RKM) untersucht. Dabei war die Form der Moleküle (Konformation) von besonderem Interesse. Sie ist von zentralerer Bedeutung in der Polymerphysik und wird üblicherweise in Lösung und mit Streumethoden untersucht. Polymerkonformationen auf Oberflächen sind heutzutage noch wenig untersucht. Üblicherweise wird das Verhalten nach dem so genannten Wormlike-Chain Modell angenommen. Es basiert auf der Annahme, dass die Kettenbiegung nur aus thermischen Fluktuationen resultiert, so dass sich die Kettenform durch statistische Mechanik beschreiben lässt. Es wurden für verschiedene Modellsystem einzelne Moleküle hochaufgelöst abgebildet und die Konformation aus den Bildern bestimmt. Es hat sich gezeigt, dass die idealisierte Vorstellung des Wormlike-Chain Modells tatsächlich nur für wenige der untersuchten Systeme erfüllt ist. Abweichende Konformationen sind oft auffallend regelmäßig: entweder sinusartig mäandrierte oder spiralförmig gedrehte. Beide Charakteristika lassen sich aus dem Prozess der Adsorption erklären, was zeigt, dass die Moleküle auf dem Substrat immobil sind, so dass eine thermische Relaxation der Konformation verhindert ist. Konformtionen lassen sich mit RKM nicht nur beobachten, sondern auch gezielt verändern (Nanomanipulation). Für dendronisierte Polymere konnte so gezeigt werden, dass es einen glasartigen Zustand für das einzelne Molekül gibt. In diesem Zustand verhält sich das Molekül nicht mehr wie eine bewegliche Kette, sondern formstabil, ähnlich einem makroskopischen festen Körper. / In this work single polymer molecules adsorbed onto substrate surfaces were investigated by scanning force microscopy (SFM). The focus was on the shape (conformation) of the molecules, which is of central importance in polymer physics. It is commonly investigated in solutions and with scattering methods. Conformations on surfaces are only little investigated thus far. Often a behavior according to the so-called worm-like chain model is assumed. It is based on the assumption that chain bending results entirely from thermal fluctuations so that the overall chain shape can be described by statistical mechanics. For several model systems single molecules were imaged and the conformation was determined from the images. It was found that the idealistic wormlike chain behavior is only valid for a few systems. Deviations are often remarkable regular: either sine-like undulated or spiral wound. Both characteristics can be explained from the process of adsorption, indicating that molecules are immobile on the substrate so that thermal relaxation is inhibited. Conformations can not only be imaged using the SFM, but also changed in a defined way (nanomanipulation). Manipulation experiments with dendronized polymers the existence of a glassy state for the single polymer. In this state the molecule no longer behaves as a flexible chain but remains its shape, similar to a macroscopic solid body. Rasterkraftmikroskopie Einzelmolekül Polymerkonformation Manipulation scanning force microscopy single molecules polymer conformation manipulation 530 Physik 29 Physik, Astronomie ddc:530
272	Clues of identification of protein-protein interaction sites. January 2005 (has links) Leung Ka-Kit. / Thesis submitted in: November 2004. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2005. / Includes bibliographical references (leaves 67-71). / Abstracts in English and Chinese. / Abstract / Chapter CHAPTER 1. --- INTRODUCTION --- p.1 / Chapter 1.1 --- Background of protein structures --- p.1 / Chapter 1.2 --- Background of protein-protein interaction (PPI) --- p.4 / Chapter 1.2.1 --- Quaternary structure and protein complex --- p.4 / Chapter 1.2.2 --- Previous related work --- p.4 / Chapter 1.2.3 --- The kinetic and thermodynamic formalism --- p.6 / Chapter CHAPTER 2. --- MATERIALS AND METHODS --- p.10 / Chapter 2.1 --- Amino acid composition representative power modeling --- p.10 / Chapter 2.1.1 --- Propensity level modeling --- p.10 / Chapter 2.1.2 --- Polar atoms visualization --- p.17 / Chapter 2.2 --- Rigid structure representative power modeling --- p.17 / Chapter 2.3 --- Electrostatic potential modeling --- p.17 / Chapter 2.3.1 --- Charge residence --- p.17 / Chapter 2.3.2 --- Minimum Ribbon (MR) --- p.19 / Chapter 2.4 --- Examination of interface --- p.23 / Chapter 2.5 --- Identification procedures of a binding site --- p.24 / Chapter 2.6 --- System requirements --- p.24 / Chapter CHAPTER 3. --- RESULTS AND DISCUSSIONS --- p.24 / Chapter 3.1 --- Polar atoms --- p.25 / Chapter 3.2 --- Minimum Ribbon (MR) --- p.27 / Chapter 3.3 --- "Charge complementarity, propensity level and rigid structure orientation" --- p.31 / Chapter 3.4 --- Identification of interacting site --- p.36 / Chapter CHAPTER 4. --- CONCLUSIONS --- p.64 / System requirements --- p.65 / Basic operation --- p.65 / Limitation --- p.66 Protein-protein interactions Proteins--Structure--Mathematical Models Protein Binding--physiology Protein Conformation Binding sites Computational Biology--methods
273	Interactions et assemblages entre l'alpha lactalbumine et le lysozyme: mécanismes, structures et stabilité Nigen, Michaël 08 July 2008 (has links) (PDF) L'assemblage des protéines est une problématique fondamentale d'intérêt pour différents secteurs (alimentaire, médical, pharmaceutique, etc.). La compréhension des mécanismes à l'origine des interactions initiales et des assemblages protéiques offre la possibilité de contrôler et d'orienter le processus de formation ainsi que la nature et les propriétés fonctionnelles des structures supramoléculaires résultantes. L'objectif de la thèse était d'acquérir de nouvelles connaissances à différentes échelles d'étude sur les mécanismes d'assemblages protéiques et les structures supramoléculaires dans un mélange protéique binaire incluant deux protéines globulaires de charge globale opposée à pH neutre : le lysozyme (LYS) et l'alpha-lactalbumine (alpha-LA). L'utilisation de techniques de fluorescence a permis de caractériser l'interaction moléculaire et la formation d'hétérodimères entre ces deux protéines aussi bien avec les formes chargée (holo alpha-LA) et déplétée (apo alpha-LA) en calcium de l'alpha-LA. La formation de ces hétérodimères s'effectue par la mise en œuvre d'interactions électrostatiques. Les propriétés d'assemblage de ces hétérodimères sont différentes et intimement liées à la stabilité de l'alpha-LA. Les hétérodimères LYS – holo alpha-LA ne semblent pas former de structures supramoléculaires, alors que les hétérodimères LYS – apo alpha-LA s'assemblent en agrégats ou en structures sphériques selon la conformation de l'apo alpha-LA. Une conformation de type « molten globule » de l'apo alpha-LA favorise la formation de microsphères. Ces dernières sont constituées de LYS et d'apo alpha-LA en quantité équimolaire qui sont parfaitement co-localisés au sein de la microstructure. Ce travail souligne le rôle clé joué par la conformation et la flexibilité des protéines dans la formation et l'orientation des assemblages entre protéines alimentaires. assemblage protéique lysozyme alpha-lactalbumine conformation protéique agrégats microsphères structures supramoléculaires
274	ETUDES STRUCTURALES ET FONCTIONNELLES <br />DE L'ATPASE-CA2+ DU RETICULUM SARCOPLASMIQUE (SERCA1A). EFFETS DES CONDITIONS DE CRISTALLISATION SUR LA CONFORMATION DE L'ATPASE-CA2+ Picard, Martin 09 December 2005 (has links) (PDF) L'ATPase-Ca2+ du réticulum sarcoplasmique est une protéine membranaire dont plusieurs conformations ont été résolues par cristallographie des rayons X. Ces structures ont été précieuses pour l'interprétation de nos études fonctionnelles sur le rôle du domaine A et de la boucle L6-7 de l'ATPase. Mais nous avons montré que les conditions de cristallisation aboutissent parfois à des structures paradoxales : la présence de concentrations importantes de Ca2+ pendant la cristallisation en présence d'AMPPCP conduit l'ATPase à adopter une conformation probablement différente de sa structure moyenne en solution; de même, dans les conformations de l'ATPase proches de l'état phosphorylé «E2P», les inhibiteurs généralement utilisés pour stabiliser l'ATPase bloquent de façon artéfactuelle l'ouverture des sites Ca2+ vers la lumière du réticulum. Nous avons tenté de comprendre les avantages et inconvénients de divers polymères amphiphiles conçus pour stabiliser en solution les protéines membranaires. protéines membranaires surfactants changements de conformation fluorescence intrinsèque enzymologie préstationnaire cristallographie
275	Impact de l'architecture macromoléculaire des polymères sur les propriétés physico-chimiques des coulis de ciment Platel, David 13 June 2005 (has links) (PDF) La mise en oeuvre des matériaux cimentaires est facilitée par l'ajout d'additifs polymères appelés superplastifiants. Dans notre étude, nous regardons l'impact de l'architecture macromoléculaire de ces polymères sur les propriétés physico-chimiques d'un coulis de ciment. Dans un premier temps, nous nous concentrons sur le contrôle de la synthèse et sur la caractérisation des polyméthacrylates de sodium greffés par des chaînes de poly(oxyde d'éthylène). Puis, nous observons l'adsorption de ces superplastifiants sur différents types de ciment avec l'aide de techniques macroscopiques et microscopiques. Finalement, nous mesurons le temps de prise, la structuration au repos et l'écoulement de différents coulis de ciment grâce à de nouveaux outils d'analyses comme la géométrie ruban et les ultrasons. [CHIM] Chemical Sciences [SPI] Engineering Sciences [PHYS] Physics Ciment Polymère Conformation Flexibilité Adsorption Rhéologie écoulement Structuration Pâte Sulfate
276	Computational Modeling of the AT<sub>2</sub> Receptor and AT<sub>2</sub> Receptor Ligands : Investigating Ligand Binding, Structure–Activity Relationships, and Receptor-Bound Models Sköld, Christian January 2007 (has links) <p>Rational conversion of biologically active peptides to nonpeptide compounds with retained activity is an appealing approach in drug development. One important objective of the work presented in this thesis was to use computational modeling to aid in such a conversion of the peptide angiotensin II (Ang II, Asp-Arg-Val-Tyr-Ile-His-Pro-Phe). An equally important objective was to gain an understanding of the requirements for ligand binding to the Ang II receptors, with a focus on interactions with the AT<sub>2</sub> receptor.</p><p>The bioactive conformation of a peptide can provide important guidance in peptidomimetic design. By designing and introducing well-defined secondary structure mimetics into Ang II the bioactive conformation can be addressed. In this work, both γ- and β-turn mimetic scaffolds have been designed and characterized for incorporation into Ang II. Using conformational analysis and the pharmacophore recognition method DISCO, a model was derived of the binding mode of the pseudopeptide Ang II analogues. This model indicated that the positioning of the Arg side chain was important for AT<sub>2</sub> receptor binding, which was also supported when the structure–activity relationship of Ang II was investigated by performing a glycine scan.</p><p>To further examine ligand binding, a 3D model of the AT<sub>2</sub> receptor was constructed employing homology modeling. Using this receptor model in a docking study of the ligands, binding modes were identified that were in agreement with data from point-mutation studies of the AT<sub>2</sub> receptor.</p><p>By investigating truncated Ang II analogues, small pseudopeptides were developed that were structurally similar to nonpeptide AT<sub>2</sub> receptor ligands. For further guidance in ligand design of nonpeptide compounds, three-dimensional quantitative structure–activity relationship models for AT<sub>1</sub> and AT<sub>2</sub> receptor affinity as well as selectivity were derived. </p> Pharmaceutical chemistry Angiotensin II AT1 AT2 SAR bioactive conformation turn mimetic peptidomimetic DISCO homology model 3D-QSAR CoMFA Farmaceutisk kemi
277	Computational Modeling of the AT2 Receptor and AT2 Receptor Ligands : Investigating Ligand Binding, Structure–Activity Relationships, and Receptor-Bound Models Sköld, Christian January 2007 (has links) Rational conversion of biologically active peptides to nonpeptide compounds with retained activity is an appealing approach in drug development. One important objective of the work presented in this thesis was to use computational modeling to aid in such a conversion of the peptide angiotensin II (Ang II, Asp-Arg-Val-Tyr-Ile-His-Pro-Phe). An equally important objective was to gain an understanding of the requirements for ligand binding to the Ang II receptors, with a focus on interactions with the AT2 receptor. The bioactive conformation of a peptide can provide important guidance in peptidomimetic design. By designing and introducing well-defined secondary structure mimetics into Ang II the bioactive conformation can be addressed. In this work, both γ- and β-turn mimetic scaffolds have been designed and characterized for incorporation into Ang II. Using conformational analysis and the pharmacophore recognition method DISCO, a model was derived of the binding mode of the pseudopeptide Ang II analogues. This model indicated that the positioning of the Arg side chain was important for AT2 receptor binding, which was also supported when the structure–activity relationship of Ang II was investigated by performing a glycine scan. To further examine ligand binding, a 3D model of the AT2 receptor was constructed employing homology modeling. Using this receptor model in a docking study of the ligands, binding modes were identified that were in agreement with data from point-mutation studies of the AT2 receptor. By investigating truncated Ang II analogues, small pseudopeptides were developed that were structurally similar to nonpeptide AT2 receptor ligands. For further guidance in ligand design of nonpeptide compounds, three-dimensional quantitative structure–activity relationship models for AT1 and AT2 receptor affinity as well as selectivity were derived. Pharmaceutical chemistry Angiotensin II AT1 AT2 SAR bioactive conformation turn mimetic peptidomimetic DISCO homology model 3D-QSAR CoMFA Farmaceutisk kemi
278	Supramolecular organisation, conformation and electronic properties of porphyrin molecules on metal substrates Weber, Alexander 05 1900 (has links) The investigation and control of molecular properties is currently a dynamic research field. Here I present molecular level studies of porphyrin molecules adsorbed on metal surfaces via Low Temperature Scanning Tunneling Microscopy/Spectroscopy (STM/STS), supported by complementary X-ray absorption experiments. Intermolecular and molecule-surface interactions of tetrapyrdil porphyrin (TPyP) on Ag(111) and Cu(111) were investigated. TPyP self-assembles on Ag(111) over a wide sample temperature range into large, highly-ordered 2D chiral domains. By contrast, adsorption of TPyP on the more reactive Cu(111) leads to temperature dependent assemblies, governed decisively by the strong substrate influence. The increased metal-surface interactions on Cu(111) are accompanied by a conformational distortion of the porphyrin macrocycle. The TPyP’s pyridil groups were coordinated with single iron molecules, forming metal-organic complexes. Furthermore, the porphyrin’s macrocycle was metalated by exposing a layer of well-ordered TPyP to an iron atom beam, demonstrating a novel approach towards the fabrication of metallo-tetraaryl porphyrins performed in two dimensions under ultrahigh vacuum conditions. This method was similarly used to form lanthanideporphyrinates by coordinating tetraphenyl porphyrin (TPP) macrocycles with cerium. The influence of the metal center on the porphyrins’ electronic structure was investigated via STS for TPP, TPyP,Fe−TPyP, Fe−TPP, Ce−TPP, and Co−TPP, whereby the inhomogenous electron density distribution associated with individual frontier orbitals were imaged via dI/dV mapping. The symmetry and form of the molecular orbitals could be directly correlated to the saddle-shaped conformational adaptation for the case of Co −TPP. supramolecular nanostructures electronic structure molecules molecular conformation Scanning Tunneling Microscopy Scanning Tunneling Microscopy porphyrin metalation electronic properties molecular manipulation
279	Semidefinite Facial Reduction for Low-Rank Euclidean Distance Matrix Completion Krislock, Nathan January 2010 (has links) The main result of this thesis is the development of a theory of semidefinite facial reduction for the Euclidean distance matrix completion problem. Our key result shows a close connection between cliques in the graph of the partial Euclidean distance matrix and faces of the semidefinite cone containing the feasible set of the semidefinite relaxation. We show how using semidefinite facial reduction allows us to dramatically reduce the number of variables and constraints required to represent the semidefinite feasible set. We have used this theory to develop a highly efficient algorithm capable of solving many very large Euclidean distance matrix completion problems exactly, without the need for a semidefinite optimization solver. For problems with a low level of noise, our SNLSDPclique algorithm outperforms existing algorithms in terms of both CPU time and accuracy. Using only a laptop, problems of size up to 40,000 nodes can be solved in under a minute and problems with 100,000 nodes require only a few minutes to solve. Euclidean distance matrices low-rank matrix completion semidefinite relaxations facial reduction wireless sensor network localization molecular conformation Combinatorics and Optimization
280	Semidefinite Facial Reduction for Low-Rank Euclidean Distance Matrix Completion Krislock, Nathan January 2010 (has links) The main result of this thesis is the development of a theory of semidefinite facial reduction for the Euclidean distance matrix completion problem. Our key result shows a close connection between cliques in the graph of the partial Euclidean distance matrix and faces of the semidefinite cone containing the feasible set of the semidefinite relaxation. We show how using semidefinite facial reduction allows us to dramatically reduce the number of variables and constraints required to represent the semidefinite feasible set. We have used this theory to develop a highly efficient algorithm capable of solving many very large Euclidean distance matrix completion problems exactly, without the need for a semidefinite optimization solver. For problems with a low level of noise, our SNLSDPclique algorithm outperforms existing algorithms in terms of both CPU time and accuracy. Using only a laptop, problems of size up to 40,000 nodes can be solved in under a minute and problems with 100,000 nodes require only a few minutes to solve. Euclidean distance matrices low-rank matrix completion semidefinite relaxations facial reduction wireless sensor network localization molecular conformation Combinatorics and Optimization

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