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  • 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.
31

Kinetics of Domain Formation Processes in Lipid Membranes / Kinetik von Domänenformationsprozessen in Lipidmembranen

Seeger, Heiko 08 March 2006 (has links)
No description available.
32

Use of magnetic nanoparticles to enhance biodesulfurization

Ansari, Farahnaz January 2008 (has links)
Biodesulfurization (BDS) is an alternative to hydrodesulfurization (HDS) as a method to remove sulfur from crude oil. Dibenzothiophene (DBT) was chosen as a model compound for the forms of thiophenic sulfur found in fossil fuels; up to 70% of the sulfur in petroleum is found as DBT and substituted DBTs; these compounds are however particularly recalcitrant to hydrodesulfurization, the current standard industrial method. My thesis deals with enhancing BDS through novel strains and through nanotechnology. Chapter highlights are: Chapter 2. My first aim was to isolate novel aerobic, mesophilic bacteria that can grow in mineral media at neutral pH value with DBT as the sole sulfur source. Different natural sites in Iran were sampled and I enriched, isolated and purified such bacteria. Twenty four isolates were obtained that could utilize sulfur compounds. Five of them were shown to convert DBT into HBP. After preliminary characterization, the five isolates were sent to the Durmishidze Institute of Biotechnology in Tbilisi for help with strain identification. Two isolates (F2 and F4) were identified as Pseudomonas strains, F1 was a Flavobacterium and F3 belonged to the strain of Rhodococcus. The definite identification of isolate F5 was not successful but with high probability it was a known strain. Since no new strains were apparently discovered, I did not work further in this direction. Chapter 3. In a second approach I studied the desulfurization ability of Shewanella putrefaciens strain NCIMB 8768, because in a previous investigation carried out at Cranfield University, it had been found that it reduced sulfur odour in clay. I compared its biodesulfurization activity profile with that of the widely studied Rhodococcus erythropolis strain IGTS8. However, S. putrefaciens was not as good as R. erythropolis. Chapter 4 and 5. I then turned to nanotechnology, which as a revolutionary new technological platform offers hope to solve many problems. There is currently a trend toward the increasing use of nanotechnology in industry because of its potentially revolutionary paths to innovation. I then asked how nanotechnology can contribute to enhancing the presently poor efficiency of biodesulfurization. Perhaps the most problematic difficulty is how to separate the microorganisms at the end of the desulfurization process. To make BDS more amenable, I explored the use of nanotechnology to magnetize biodesulfurizing bacteria. In other words, to render desulfurizing bacteria magnetic, I made them magnetic by decorating their outer surfaces with magnetic nanoparticles, allowing them to be separated using an external magnet. I used the best known desulfurizing bacterial strain, Rhodococcus erythropolis IGTS8. The decoration and magnetic separation worked very well. Unexpectedly, I found that the decorated cells had a 56% higher desulfurization activity compared to the nondecorated cells. I proposed that this is due to permeabilization of the bacterial membrane, facilitating the entry and exit of reactant and product respectively. Supporting evidence for enhanced permeabilization was obtained by Dr Pavel Grigoriev, Institute of Cell Biophysics, Russian Academy of Sciences, Pushchino. In Chapter 6, to optimize attachment of the nanoparticles to the surface of the bacteria I created thin magnetic nanofilms from the nanoparticles and measured the attachment of the bacteria using a uniquely powerful noninvasive optical technique (Optical Waveguide Lightmode Spectroscopy, OWLS) to quantify the attachment and determine how the liquid medium and other factors influence the process.
33

Interaction between Nanoparticles and Aggregates of Amphiphile Molecules / Interaction entre nanoparticules et agrégats de molécules amphiphile

Tian, Falin 03 July 2015 (has links)
Ayant une structure particulière avec une tête hydrophile et une queue hydrophobe, des molécules amphiphile ont de nombreuses applications importantes, comme par exemple, la fabrication des détergents, la protection et la fonctionnalisation de surfaces, etc. Des agrégats de diverses formes, micelles, véhicules, membranes etc., peuvent se former à partir des amphiphiles. La complexité de ces agrégats moléculaires rend l’étude théorique de ce type de systèmes extrêmement difficile. Jusqu’à présent, notre connaissance sur l’interaction entre des nanoparticules et des agrégats des amphiphiles reste encore incomplète. A l’aide de certaines méthodes de simulations moléculaire et une approche théorique, nous avons entrepris une série d’études pour mieux comprendre les questions fondamentales suivantes :1. Comment la présence de nanoparticules, notamment la courbure de ses surfaces, affecte l’agrégation de molécules amphiphile ?2. Comment une bicouche de lipide, une forme d’agrégat particulier des amphiphile, peut induire l’assemblage auto-organisé de nanoparticules hydrophobes ?3. Est-ce que la présence des nanoparticules peut provoquer des transitions morphologiques d’un nanotube membranaire ? / Amphiphile molecules, endowed with a particular structure containing a hydrophilic head and a hydrophobic tail, have many important applications, e.g., fabrication of detergents, surface coating or surface functionalization, etc. Molecular aggregates of various forms, micelles, vehicle, membranes, etc. can be formed from amphiphile molecules. The complexity of these molecular aggregates involving a large number of atoms make the theoretical study of these system very challenging. Up to now, our understanding of the interaction between nanoparticles and aggregates of amphiphiles remains quite incomplete. Using a variety of molecular simulation methods and some theoretical approaches (Helfrich theory and perturbation theory), we have studied the following issues in the present thesis: 1. How the presence of nanoparticles, especially due to their highly curved surfaces, affects the aggregation of the amphiphiles? 2. How a lipid bilayer, a particular amphiphile aggregate, induces the self-assembly of hydrophobic nanoparticles.3. How the morphology transition of a membrane nanotube can be induced by nanoparticles?
34

Membrane properties of cholesterol analogs with an unbranched aliphatic side chain: Membrane properties of cholesterol analogs with an unbranchedaliphatic side chain

Meyer, Thomas, Baek, Dong Jae, Bittman, Robert, Haralampiev, Ivan, Müller, Peter, Herrmann, Andreas, Huster, Daniel, Scheidt, Holger A. January 2014 (has links)
The interactions between cholesterol and other membrane molecules determine important membrane properties. It was shown that even small changes in the molecular structure of cholesterol have a crucial influence on these interactions. We recently reported that in addition to alterations in the tetracyclic ring structure, the iso-branched side chain of cholesterol also has a significant impact on membrane properties (Scheidt H. et al. 2013 Angew. Chem. Int. Ed. Engl. 52, 12848-12851). Here we used synthetic cholesterol analogs to investigate the influence of an unbranched aliphatic side chain of different length. The 2H NMR order parameter of the phospholipid chains and therefore the molecular packing of the phospholipid molecules shows a significant dependence on the sterol’s alkyl side chain length, while , membrane permeation studied by a dithionite ion permeation assay and lateral diffusion measured by 1H MAS pulsed field gradient NMR are less influenced. To achieve the same molecular packing effect similar to that of an iso-branched aliphatic side chain, a longer unbranched side chain (n-dodecyl instead of n-octyl) at C17 of cholesterol is required. Obviously, sterols having a branched iso- alkyl chain with two terminal methyl groups exhibit altered cholesterol-phospholipid-interactions compared to analogous molecules with a straight unbranched chain.
35

Entwicklung eines optischen markierungsfreien Ionenkanalsensor-Arrays

Zimmerer, Cordelia 15 October 2007 (has links)
Ligandgesteuerte Ionenkanäle sind Membranproteine, die an der Weiterleitung von Reizen und an der Kommunikation zwischen Zellen beteiligt sind. Große Bedeutung besitzt die Messung der Aktivierung der Ionenkanäle beispielsweise in der Medizin (z.B. Ionenkanalerkrankungen), der Pharmazie (z.B. Medikamenten-Screening) und in der Bionanotechnologie (z.B. molekulare Schalter). In all diesen Gebieten besteht die Forderung nach hohen Probendurchsätzen bei sehr hohem Informationsgehalt. Etablierte elektrochemische Detektionsmethoden erfüllen diese Forderung nicht. Um dieses Defizit zu überwinden, wurde ein Ionenkanalsensor-Array mit optischer, paralleler Detektion entwickelt. Eine mikrostrukturierte Polymethyl(meth)acrylat (PMMA)-Schicht dient als Grundgerüst des Arrays. Über die Mikroporen, die nur wenige Mikrometer Durchmesser aufweisen, wird eine Lipidmembran gespannt, in die Ionenkanäle eingebaut werden. Wird der Ionenkanal aktiviert, strömen Ionen in die Mikroporen und führen zu einer messbaren Veränderung des Brechungsindexes. Mittels Oberflächenplasmonen-Resonanz Imaging lässt sich die Aktivierung der Ionenkanäle markierungsfrei und direkt bestimmen. Stabile, die Mikrostruktur überspannende Lipidmembranen wurden durch eine neu entwickelte Stempeltechnik und durch eine Oberflächenmodifikation der PMMA-Mikrostruktur erzielt. Für die Charakterisierung und den Funktionsnachweis des Sensoraufbaus wurden das infrarot-spektroskopische Imaging und die Fluoreszenzmikroskopie eingesetzt. Schließlich konnte gezeigt werden, dass eine Verbesserung der Empfindlichkeit durch das lokale Aufkonzentrieren der durch den Ionenkanal geströmten Metallionen am Porengrund mit oberflächengebundener 2-(Benzylsulfid)-18-Krone-6 möglich ist.
36

Investigation of the Linker Region of Coiled Coil SNARE-Analoga and Membrane Composition on Vesicle Fusion

Groth, Mike Christopher 11 January 2021 (has links)
No description available.
37

Interactions of Neuromodulators with Lipid Bilayers Studied by Scattering and Spectroscopy Methods

Azam Shafieenezhad (13795282) 28 November 2022 (has links)
<p>This work studies the effect of dopamine (DA) and adenosine triphosphate (ATP) on lipid membranes using a number of complementary experimental methods. These methods include Dynamic Light Scattering to measure electrostatic surface potentials, solid-state Nuclear Magnetic Resonance to measure the degree of lipid acyl chain order, Electron Paramagnetic Resonance to measure changes in membrane viscosity, and X-ray diffuse scattering to measure structural and material parameters of lipid bilayers. It is shown that both DA and ATP have a measurable affinity to the lipid-water interface even in the absence of specialized biological receptors. These results are important for understanding the function of DA and ATP in cellular processes.</p>
38

BIOCOMPOSITE PROTON EXCHANGE MEMBRANES*

Stephens, Brian Dominic 21 July 2006 (has links)
No description available.
39

Struktur und Fluktuationen festkörpergestützter Phospholipidmembranen / structure and fluctuations of solid supported phospholipid membranes

Mennicke, Ulrike Katharina 18 August 2003 (has links)
No description available.
40

Critical fluctuations and anomalous diffusion in two-component lipid membranes: Monte Carlo simulations on experimentally relevant scales

Ehrig, Jens 18 February 2013 (has links) (PDF)
This work addresses properties of two-component lipid membranes on the experimentally relevant spatial scales of order of a micrometer and time intervals of order of a second by means of lattice-based Monte Carlo (MC) simulations. To be able to do that with reasonable computational efforts the lipid membrane is modeled as a square lattice of lipid molecules with next-neighbor interaction. This allows for efficient computation and thus provides a large-scale simulation with which it was possible to obtain important results previously not reported in simulation studies of lipid membranes. After properly tuning the next-neighbor interaction energies the simulation reproduces the experimental phase diagram of the DMPC/DSPC lipid system which is used as a model system in this work. Beyond that, the MC simulation provides a more detailed description of the phase behavior of the lipid mixture than the experimental data. It is found that, within a certain range of lipid compositions, the phase transition from the fluid phase to the fluid–gel phase coexistence proceeds via near-critical fluctuations, while for other lipid compositions this phase transition has a quasi-abrupt character. The complete combined state and component phase diagram is constructed by structure function analysis which confirms the existence of a critical point in the system. The dynamics of membrane coarsening after an abrupt temperature quench to the fluid–gel coexistence region of the phase diagram are studied. In this context, it is found that lateral diffusion of lipids plays an important role in the fluid–gel phase separation process. Dynamic scaling is observed only if the ratio of gel and fluid phase in the membrane stays constant in time. The line tension characterizing lipid domains in the fluid–gel coexistence region is found to be in the pN range thus matching values both predicted theoretically and measured experimentally. When approaching the critical point, the line tension, the inverse correlation length of fluid–gel spatial fluctuations, and the corresponding inverse order parameter susceptibility of the membrane vanish in agreement with recent experimental findings for model lipid membranes. By simulating single particle tracking and fluorescence correlation spectroscopy experiments it is found that in the presence of near-critical fluctuations lipid molecules show transient subdiffusive behavior, which is a new result important for understanding the origins of subdiffusion in cell membranes which are believed to be close to a critical point. The membrane–cytoskeleton interaction strongly affects phase separation, enhances subdiffusion, and eventually leads to hop diffusion of lipids. Thus, a minimum realistic model for membrane rafts showing the features of both microscopic phase separation and subdiffusion is established.

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