- About
-
The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
provided by the
Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
Search results
Showing 11 to 13 of 13 (0.502 seconds)Spelling suggestions: "subject:"1protein / lipid interaction"" "subject:"2protein / lipid interaction""
| 11 |
Der Einfluss des Cholesterolgehaltes der Diskmembranen des Stäbchenaußensegmentes auf die ersten Schritte der visuellen SignaltransduktionWaterstradt, Katja 17 July 2009 (has links)
Das Außensegment der Stäbchenzelle ist aus einem Stapel von flachen Membransäckchen, den Diskmembranen, aufgebaut. Entlang dessen existiert ein Cholesterolgradient mit 24 mol% Cholesterol in den basalen Diskmembranen und 5 mol% in den apikalen. Das Außensegment enthält alle Proteine der Signaltransduktion. Der Photorezeptor Rhodopsin ist als integrales Membranprotein in die Diskmembran eingebettet. Das G-Protein Transducin und das Effektorprotein, die Phosphodiesterase (PDE), sind periphere Proteine mit Lipidankern und somit reversibel mit der Membranoberfläche assoziiert. Um den Einfluss des Cholesterolgehaltes der Diskmembranen auf diese drei Proteine zu untersuchen, wurden Diskmembranen mit unterschiedlichem Cholesterolgehalt präpariert (Simulation des Cholesterolgradienten). Die Untersuchungen zur transversalen Verteilung des Cholesterols in der Diskmembran ergaben eine schnelle Transmembranbewegung mit einer Halbwertzeit von weniger als einer Minute bei 35 °C. Desweiteren konnte gezeigt werden, dass es zu kopfgruppenspezifischen Wechselwirkungen von Cholesterol mit dem Phospholipid Phosphatidylcholin kommt. Cholesterol verschiebt das Meta I-Meta II-Gleichgewicht (nach Lichtaktivierung von Rhodopsin) auf die Seite von Meta I (inaktiv). In dieser Arbeit konnte jedoch gezeigt werden, dass durch die Anwesenheit des Transducins das Gleichgewicht vollständig auf die Seite von Meta II (aktiv) verschoben wird, da Transducin spezifisch die Meta-II-Form stabilisiert. Somit kann die verminderte Meta II-Bildung des Rezeptors in Diskmembranen mit hohem Cholesterolgehalt durch Transducin ausgeglichen werden. Lediglich die Geschwindigkeit der Transducinaktivierung ist verlangsamt. Durch den erhöhten Cholesterolgehalt werden die Membraneigenschaften für eine Bindung der beiden peripheren Proteine Transducin und PDE über deren Lipidanker optimiert. Somit kann die Signaltransduktion auch in den basalen Diskmembranen des Stäbchenaußensegmentes stattfinden. / The rod outer segment consists of a stack of flat membrane saccules called disc membranes. Along this stack a cholesterol gradient exists with 24 mol% cholesterol in the basal and only 5 mol% in the apical disc membranes. The outer segment contains all the proteins necessary for signal transduction. The photoreceptor rhodopsin as integral membrane protein is embedded in the disc membrane. The G protein transducin and the effector protein phosphodiesterase (PDE) are soluble proteins with lipid modifications, which are associated reversibly to the membrane surface. Disc membranes with different cholesterol contents were prepared to simulate the cholesterol gradient along the rod outer segment and to investigate the influence of disc membrane cholesterol content of these three proteins. Investigations of the transversal distribution of cholesterol in the disc membrane revealed a fast transmembrane movement with a half life of less than one minute at 35 °C. Further, head group specific interactions between cholesterol and phosphatidylcholine could be shown. The Meta I Meta II equilibrium after light activation of rhodopsin was shifted to the Meta I (inactive) site in membranes with high cholesterol. In this work it was shown that in the presence of transducin this equilibrium is shifted completely to the Meta II (active) site because transducin stabilizes specifically the Meta II form of the receptor. Hence the reduced Meta II formation in disc membranes with high cholesterol could be compensated by transducin. The speed of transducin activation is decelerated. By the increased cholesterol content membrane properties are optimized to the binding of transducin and PDE via their lipid modifications. Thus the signal transduction can take place also in disc membranes with high cholesterol.
|
| 12 |
Étude de l'interaction d'une famille de protéines myristoylées, les Visinin-Like Proteins, avec des membranes biomimétiques et développement d'un nouveau modèle membranaire dédié à l'étude de l'interaction protéine / lipide / Studies of the interaction of myristoylated proteins, Visinin-Like Proteins, with biomimetic membranes and conception of a new membrane model dedicated to protein / lipid interaction studiesRebaud, Samuel 27 March 2015 (has links)
Deux membres des Visinin-Like Proteins (VILIPs), VILIP-1 et VILIP-3, ont été étudiés à l'aide de deux modèles membranaires biomimétiques, les monocouches de Langmuir couplées à la microscopie à l'angle de Brewster (BAM) et les bicouches lipidiques supportées (SLB) visualisées par microscopie à force atomique (AFM). A l'aide de ces deux modèles, nous avons pu montrer que les VILIPs, protéines N-myristoylées et possédant quatre mains-EF, ont une cinétique d'interaction membranaire qui augmente en présence de calcium, probablement dû à la présence d'un mécanisme type « switch calcium-myristoyle ». En revanche, l'utilisation de protéines mutées, non myristoylées, a révélé que la présence du groupement myristoyle n'est pas le seul facteur nécessaire pour que ces protéines interagissent avec la membrane. La présence d'une région N-terminale riche en résidus lysine permettrait à cette famille de protéines d'interagir via des interactions électrostatiques avec des membranes possédant des lipides anioniques et plus particulièrement du phosphatidylinositol-4,5-biphosphate (PIP2). La présence d'un faible pourcentage de ce phosphoinositide dans la membrane est responsable de l'accélération de la vitesse d'interaction membranaire des VILIPs, ce qui est cohérent avec leur location subcellulaire in cellulo. Enfin, un nouveau modèle membranaire de bicouches lipidiques suspendues sur des pilotis peptidiques (pep-tBLM) greffés sur une surface d'or a été ensuite développé. La méthode présentée dans ce manuscrit permet de créer des tBLM, de la composition lipidique souhaitée, en utilisant un peptide pilotis spécifiquement conçu durant cette thèse. La création de ce modèle a été suivie en temps réel par imagerie de résonance plasmonique de surface (SPRi) et caractérisé par AFM et par microscopie de fluorescence / Two members of the Visinin-Like Proteins (VILIPs) family, VILIP-1 and VILIP-3, have been studied using two biomimetic membrane models, the Langmuir monolayers coupled to the Brewster angle microscopy (BAM) and the supported lipid bilayers (SLB) visualized by atomic force microscopy (AFM). Using these two models, we have shown that VILIPs, N-myristoylated proteins with four EF-hands, have a membrane interaction kinetic that increases in the presence of calcium, probably due to the presence of a "calcium-myristoyl switch" mechanism. Tn contrast, the use of unmyristoylated proteins revealed that the presence of the myristoyl group is not the only factor necessary for the interaction of these proteins with the membrane. The presence of a N- terminal lysine-rich region allows this family of proteins to interact through electrostatic interactions with membranes containing anionic lipids and particularly the phosphatidylionisitol-4,5-biphosphate (PIP2). The presence of a small percent of phosphoinositide in the membrane is responsible for the acceleration of the binding rate of VILIPs, which is consistent with their subcellular location in cellulo. Finally, a new membrane model of peptide tethered lipid bilayers (pep-tBLM) grafted onto a gold surface was developed. The method described in this manuscript allows the formation of tBLM, containing the desired lipid composition, by using a home-designed peptide as tether. The formation is followed in real time by surface plasmon resonance imaging (SPRi) and has been characterized by AFM and fluorescence microscopy
|
| 13 |
SMALL ANGLE SCATTERING OF LARGE PROTEIN UNITS UNDER OSMOTIC STRESSLuis Palacio (8775689) 30 April 2020 (has links)
<div>Large protein molecules are abundant in biological cells but are very difficult to study in physiological conditions due to molecular disorder. For large proteins, most structural information is obtained in crystalline states which can be achieved in certain conditions at very low temperature. X-ray and neutron crystallography methods can then be used for determination of crystalline structures at atomic level. However, in solution at room or physiological temperatures such highly resolved descriptions cannot be obtained except in very few cases. Scattering methods that can be used to study this type of structures at room temperature include small-angle x-ray and neutron scattering. These methods are used here to study two distinct proteins that are both classified as glycoproteins, which are a large class of proteins with diverse biological functions. In this study, two specific plasma glycoproteins were used: Fibrinogen (340 kDa) and Alpha 1-Antitrypsin or A1AT (52 kDa). These proteins have been chosen based on the fact that they have a propensity to form very large molecular aggregates due to their tendency to polymerize. One goal of this project is to show that for such complex structures, a combination of scattering methods that include SAXS, SANS, and DLS can address important structural and interaction questions despite the fact that atomic resolution cannot be obtained as in crystallography. A1AT protein has been shown to have protective roles of lung cells against emphysema, while fibrinogen is a major factor in the blood clotting process. A systematic approach to study these proteins interactions with lipid membranes and other proteins, using contrast-matching small-angle neutron scattering (SANS), small angle x-ray scattering (SAXS) and dynamic light scattering (DLS), is presented here. A series of structural reference points for each protein in solution were determined by performing measurements under osmotic stress controlled by the addition of polyethylene glycol-1,500 MW (PEG 1500) in the samples. Osmotic pressure changes the free energy of the molecular mixture and has consequences on the structure and the interaction of molecular aggregates. In particular, the measured radius of gyration (Rg) for A1AT shows a sharp structural transition when the concentration of PEG 1500 is between 33 wt\% and 36 wt\%. Similarly, a significant structural change was observed for fibrinogen when the concentration of PEG 1500 was above 40 wt\%. This analysis is applied to a study of A1AT interacting with lipid membranes and to a study of fibrinogen polymerization in the presence of the enzyme thrombin, which catalyzes the formation of blood clots. The experimental approach presented here and the applications to specific questions show that an appropriate combination of scattering methods can produce useful information on the behavior and the interactions of large protein systems in physiological conditions despite the lower resolution compared to crystallography.</div>
|
Page generated in 0.5065 seconds