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Friction Properties of Polymer Systems as Measured Using MicropipettesHealey, Mark A. 10 1900 (has links)
<p>In this work, we tested the ability of an experimental system, involving the use of micropipettes as force transducers, to measure the coefficients of friction of several systems. Using a magnetic pipette puller, the micropipettes were produced by first heating and stretching the glass. The pipettes are then manipulated into an L-shape. This geometry allows one arm to act as the normal force transducer, and the other to act as the lateral force transducer for the purposes of friction measurements. We then analyzed the variation of the friction force of 15 micrometre polystyrene beads in contact with silicon and polystyrene in a fluid environment at increasing velocities. We also measured the variation in friction coefficient of poly(dimethyl siloxane) coated polystyrene beads in contact with a silicon surface. Our results were then compared to known values where possible, and the variation of the friction coefficient with increasing velocity was fit to a known phenomenological model. From our experiments, we have shown that our experimental technique can provide reproducible friction coefficient measurements, and these coefficients vary with velocity in a known manner. These results confirm the ability of micropipettes to act as both normal and lateral force transducers in friction experiments, and that they have the potential to be used in measuring friction coefficients of more complex materials.</p> / Master of Science (MSc)
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Rearrangement of 2D clusters of droplets under compression: from crystal to glassOno-dit-Biot, Jean-Christophe January 2017 (has links)
Emulsions and colloidal suspensions have various industrial applications but are also used in laboratories as model systems for studying the different phases of matter. They are versatile as their nature, size and inter-particle interactions are easily tuneable. These systems are perfect for studying questions such as the phase transition. In this thesis, we investigate the transition from an ordered crystal to a disordered glass. Perfectly ordered crystals are modeled by clusters of highly monodisperse droplets. We study the transition toward a glassy system by mixing two monodisperse populations of droplets in different proportions. The clusters are compressed between two thin glass rods, one of which is a force transducer. The forces within the clusters are directly measured and used as an indicator of the composition of the cluster. Upon introduction of disorder, the number of peaks in the force measurement increases drastically. We find that the way the energy is dissipated in the cluster is valuable information to characterize the crystal-to-glass transition.
In addition to the experimental study of the crystal-to-glass transition, we have developed an analytical model that is in full agreement with the experimental observations. A crystal is modeled as an assembly of Hookean springs that will store elastic energy until it reaches a fracture point. We are able to predict the number of peaks in the force measurements when defects are introduced using simple geometric arguments. From this prediction, the way the work is dissipated in a given transition can be predicted. / Thesis / Master of Science (MSc)
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Mechanical Deformation and Adhesion of Cells in Model CapillariesChoi, Young Eun January 2011 (has links)
No description available.
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MICROPIPETTE CELL ADHESION ASSAY: A NOVEL <i>IN VITRO</i>ASSAY TO MODEL LEUKOCYTE ADHESION IN THE PULMONARY CAPILLARIES OF THE LUNGSundd, Prithu January 2007 (has links)
No description available.
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Spectrin-lipid interactions and their effect on the membrane mechanical propertiesSarri, Barbara Claire Mireille Annick January 2014 (has links)
This thesis presents the experimental work performed on the spectrin protein. The aim of the work was to study the direct interactions of spectrin, the cytoskeleton of RBCs, with membrane lipid to determine its effects on the mechanical properties of the lipid bilayer. Motivation for this work came from a lack of unanimity in the field of spectrin, and the hypothesized potential of the protein to perforate giant unilamellar vesicles. The work aimed to investigate and determine how spectrin-lipid interactions influence membrane mesoscopic morphology and biophysics in ways that could ultimately be important to cellular function. For this purpose, a protocol was implemented to take into account the different aspects of the binding. Direct visualisation of the spectrin-lipid interaction and distribution was achieved using confocal fluorescence microscopy. Changes in the mechanical properties of the membrane were investigated using the micropipette aspiration technique. Finally the thermodynamics of the interaction were considered with isothermal titration calorimetry experiments. This allowed evaluation of the protein-lipid interaction in a complete and coherent manner. Experiments were also performed on another elastic protein, alpha-elastin, for comparison. In addition to its similarities with spectrin (both possess hydrophobic domains and entropy elasticity), elastin is auto-fluorescent which makes it an attractive model protein. Elastin was also used as a sample model to implement new techniques using nonlinear optics microscopy.
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Diffusion Coefficients and Mechanical Properties of Polymerizable Lipid MembranesOrosz, Kristina Suzanne January 2011 (has links)
It would be beneficial to incorporate transmembrane proteins (TMPs) into biosensors, because TMPs are important for cell function in healthy and diseased states. These devices would employ an artificial cell membrane to maintain TMP function since cell membranes, which are mostly lipids, are necessary for the TMPs to function. These artificial lipid membranes must be robust for sensor applications. The ruggedness of these artificial membranes can be increased by using polymerizable lipids. Some polymerized lipid membranes exhibit increased stability, while successfully incorporating TMPs.Some polymerized membranes do not support the activity of certain TMPs, while maintaining the function of others. It is believed the physical properties of the membranes are important for TMP function. Some important physical properties of polymerizable lipid membranes have not yet been measured. Here, fluidity and mechanical properties of polymerizable dienoylPC lipid membranes were investigated.Fluorescence Recovery After Photobleaching was used to measure the fluidity of polymerizable dienoylPC membranes. Unpolymerized, UV-polymerized, and redox-polymerized membranes were investigated. Three types of membranes were found: fluid, partially fluid, and immobile. Unpolymerized and some polymerized membranes were fluid, while only polymerized membranes were partially fluid or immobile. Polymer size is believed to cause the differences in fluidity. This study highlights how polymerization parameters can influence membrane fluidity.Micropipette Aspiration was used to measure the mechanical properties of Giant Unilamellar Vesicles (GUVs) composed of dienolyPC lipids. Unpolymerized and UV-polymerized GUVs were investigated. Strength measurements showed that denoylPC GUVs were stronger than sorbylPC GUVs. Area expansion moduli of denoylPCs and mono-SorbPC GUVs were slightly lower than SOPC GUVs, while bis-SorbPC GUVs were substantially easier to stretch. The bending moduli of all GUVs was similar. UV-polymerization had no significant effect on the parameters. The difference in strength between denoylPCs and sorbylPCs is hypothesized to be due to the porous nature of sorbylPCs. It is thought UV-polymerization of these GUVs created polymers too small to significantly alter mechanical properties.It was demonstrated that some stable membranes are also fluid, which is important for the function of certain TMPs. A correlation cannot be made between the bending and stretching moduli of polymerizable membranes and function of TMPs.
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Experimental and numerical study on failure strength of aspirated cell membraneWu, Yang 15 December 2017 (has links)
The objective of this work is to develop an innovative and quantitative method to study cell failure under fluidic pressure to understand cell membrane mechanical properties. Due to lack of experimental data related to cell failure property, the current research focuses on investigating the cell failure using a micro pipette aspiration experiment method to elaborate gradually increasing hydrostatic pressure to the cell causing the membrane to deform and eventually rupture. Based on our observation, the prostate cancer cells (PC-3) deformed into a deflated and flattened shape under higher hydrostatic pressure (249 Pa) while prostate epithelial cells (PrEC LH) cells generate a spherical and rounded shape. The stress along the cell membrane was estimated from the curvature data captured from the 2D microscopic images for each pressure magnitude to quantify the damage before rupture state. From the results, non-transformed prostate epithelial cells (PrEC LH) presented a stiffer and rupture resilient property compared to transformed prostate cancer cells (PC-3) which presented a softer and vulnerable property. Besides, the alteration of shape of the aspirated membrane directly affected the stress distribution over the membrane and as a result, provoked membrane failure. Multiple pieces of research have shown a higher stiffness of healthy cells compared to cancer cells including one of the previous studies done by our group which have also found that cancer cell tends to become stiffer after exposing to fluid shear stress. The discovery of this cellular behavior and novel numerical quantification method of cell failure could advance the study of cancer cell membrane failure, cellular matrix structure, response to mechanical loadings and potentially foundation in developing new treatment for cancer other than destructive chemical treatment.
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The Sertoli Cell-Spermatid Junctional Complex: A potential avenue for Male contraceptionWolski, Katja Margrit 01 June 2006 (has links)
The Sertoli cell ectoplasmic specialization is a specialized domain of the calcium-dependent Sertoli-spermatid adherens junction. Structurally abnormal or absent Sertoli ectoplasmic specializations are associated with spermatid sloughing and subsequent oligospermia in conditions associated with reduced fertility potential, although the junctional strength between these cells is not known. Adjudin is a potential male contraceptive agent thought to interrupt testicular binding dynamics of adherens junctions, resulting in controlled spermatid sloughing.It was hypothesized that the mechanism of action of Adjudin, pertinent to its putative contraceptive effect, is the disruption of the Sertoli cell-spermatid junction.
This was tested in vitro using primary isolates of germ cells and both primary and immortal Sertoli cells.This dissertation presents the examination of Sertoli-germ cell interactions in three parts, which address the overall aims of this dissertation project: (1) measurement of the junctional strength between Sertoli cells and spermatids in vitro, (2) determination of the efficacy of sk Sertoli cell lines in Sertoli-germ cell binding studies in vitro, and (3) assessment of Adjudin as a potential male contraceptive, by measuring the junctional binding strength between Sertoli cells and spermatids exposed to this chemical in vitro.For the first time, the strength of the Sertoli-spermatid junction has been measured, using a micropipette pressure transducing system (MPTS).
Results reported in this dissertation demonstrate that the junctional strength between Sertoli cells and germ cells can be measured in vitro, support long held speculations regarding Sertoli-spermatid junctional interactions, and provide a technology to test proposed mechanisms of junctional binding dynamics between cells of the seminiferous epithelium (Chapter 2). Although the sk cell lines initially expressed mRNA for the FSH receptor, coculture results determined that these cell lines have limited value for investigating Sertoli-germ cell binding dynamics in vitro (Chapter 3). By utilizing the MPTS and primary cell isolates, Adjudin was determined to reduce the junctional strength between Sertoli cells and step-8 spermatids. In conclusion, results support the use of Adjudin as a potential reversible male contraceptive agent by a mechanism which alters the adhesion properties between the step-8 spermatid and the Sertoli cell (Chapter 4).
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Modifications photo-induites de membranes modèlesWeber, Georges 17 September 2012 (has links) (PDF)
Ce travail est basé sur l'intuition que seul de nouveaux systèmes biomimétiques permettant un contrôle de la localisation spatiale des phénomènes d'oxydation peuvent conduire à une compréhension profonde de l'oxydation des lipides dans les cellules eucaryotes. Nous avons donc développé un nouveau type de molécule photosensible pouvant être ancré dans des Vésicules Géantes Unilamellaires (GUVs). Nous montrons dans cette étude que, pour le cas particulier de l'hydroperoxydation, contrôler la distribution spatiale permet une sélection des réactions d'oxydation, ce qui nécessite également une adaptation des stratégies de traitement antioxydant. En association avec de nouvelles techniques pour la quantification des événements d'oxydation, ces nouveaux modèles fournissent un scénario complet des mécanismes d'hydroperoxydation, de la production des espèces réactives (1O2) aux modifications physiques et chimiques induites dans les bicouches auto-assemblées. Nous montrons que les GUVs sont capables de survivre lorsque tous les lipides sont hydroperoxydés, confirmant que l'intégrité de la membrane est conservée dans ces conditions d'oxydation. Notre expérience permet de mesurer avec une bonne précision : l'augmentation d'aire produite sous hydroperoxydation, les modifications des propriétés mécaniques de la membrane, ainsi que l'efficacité d'hydroperoxydation. Pour une compréhension approfondie, les modifications moléculaires sous oxydation ont été étudiées à l'interface eau-air en utilisant des monocouches de lipides.
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The regulation of conformation and binding kinetics of integrin alphaLbeta2Zhang, Fang 09 July 2007 (has links)
The interaction mediated by integrin alphaLbeta2 and its ligand plays major role in many immune responses by regulating leukocyte adhesion. This study investigated the conformational regulation of alphaLbeta2 and the effects of conformational change on the ligand binding of alphaLbeta2. Micropipette adhesion frequency assay was used to measure the two-dimensional binding affinity and kinetics of alphaLbeta2 on K562 cells and neutrophils. The conformations of alphaLbeta2 were regulated by mutations, antibodies, small molecule antagonists, as well as divalent cations. Our results indicated that the change in binding affinity and off-rate was mostly due to the alphaL I domain conformational change. Without affecting the I domain conformation, the extension of alphaLbeta2 only increases the on-rate for several fold by providing a better orientation and accessibility of the molecule on cell surface. The binding characteristics of divalent cations to I domain MIDAS and other metal ion binding sites in alphaLbeta2 are determined by the nature of divalent cations, Mn2+ has higher binding affinity to the metal ion binding sites than Mg2+. The conformation of I domain also affected the binding of divalent cations. Open and intermediate I domains have higher binding affinity for Mn2+ and Mg2+ than WT and closed I domains. Divalent cations dissociate from I domain MIDAS very slowly but from those metal ion binding sites that important for conformational change of alphaLbeta2 rapidly. One of the most important biological processes mediated by alphaLbeta2 and other beta2 integrins is the recruitment and migration of neutrophils during inflammation. The activation of beta2 integrins by E-selectin binding to neutrophils in this process was also investigated. The binding of E-selectin, but not P- or L-selectin, activates beta2 integrins in a timescale of ~ 5 seconds and the activation may require the crosslink of E-selectin ligands. These results provide insights into the relationship between the conformational change and the function of alphaLbeta2 and most importantly would contribute to the understanding of integrin regulation mechanisms.
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