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Mechanical integrity of myosin thick filaments of airway smooth muscle in vitro: effects of phosphoryation of the regulatory light chainIp, Kelvin 11 1900 (has links)
Background and aims: It is known that smooth muscle possesses substantial
mechanical plasticity in that it is able to adapt to large changes in length without
compromising its ability to generate force. It is believed that structural malleability of
the contractile apparatus underlies this plasticity. There is strong evidence suggesting
that myosin thick filaments of the muscle are relatively labile and their length in vivo
is determined by the equilibrium between monomeric and filamentous myosin. The
equilibrium in turn is governed by the state of phosphorylation of the 20-kD
regulatory myosin light chain (MLC20, or RLC). It is known that phosphorylation of
the myosin light chain favors formation of the filaments; it is not known how the light
chain phosphorylation affects the lability of the filaments. The major aim of this
thesis was to measure the mechanical integrity of the filaments formed from purified
myosin molecules from bovine airway smooth muscle, and to determine whether the
integrity was influenced by phosphorylation of the myosin light chain.
Methods: Myosin was purified from bovine trachealis to form filaments, in ATP
containing zero-calcium solution during a slow dialysis that gradually reduced the
ionic strength. Sufficient myosin light chain kinase and phosphatase, as well as
calmodulin, were retained after the myosin purification and this enabled
phosphorylation of RLC within 20-40 s after addition of calcium to the filament
suspension. The phosphorylated and non-phosphorylated filaments were then partially
disassembled by ultrasonification. The extent of filament disintegration was
visualized and quantified by atomic force microscopy.
Results: RLC phosphorylation reduced the diameter of the filaments and rendered the
filaments more resistant to ultrasonic agitation. Electron microscopy revealed a
similar reduction in filament diameter in intact smooth muscle when the cells were
activated.
Conclusion: Our results suggest that RLC phosphorylation is a key regulatory step in
modifying the structural properties of myosin filaments in smooth muscle, where
formation and dissolution of the filaments are required in the cells’ adaptation to
different cell length. / Medicine, Faculty of / Medicine, Department of / Experimental Medicine, Division of / Graduate
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Atomic force microscopy study of the metal surface during a palladium-catalyzed hydrogenation membrane reactionCarson, Jared C. January 1900 (has links)
Doctor of Philosophy / Department of Chemical Engineering / Mary E. Rezac / Characterizing a catalytic metal surface during heterogeneous hydrogenation is an enabling area of catalysis research. Available technology, however, often requires ultra-high vacuum or other limiting conditions which prohibit in operando research. Atomic force microscopy (AFM) can provide direct observations of fluid/solid interfaces at atmospheric conditions and in real time. Tapping-mode AFM can examine chemical and physical phenomena on surfaces in addition to topography. The work here describes using phase-angle information from tapping-mode AFM to observe liquid/solid interfaces in real time during the hydrogenation of styrene. Through optimized tuning and scanning procedures, it was possible to observe the onset of hydrogenation on the surface of palladium immersed in liquid in real time and with the topographic resolution inherent to AFM. This opens new avenues for in operando research on heterogeneous catalysis, a field that is of great fundamental and industrial importance.
For reference, a catalytic membrane reactor (CMR) was used to observe the hydrogenation of phenylacetylene over a palladium layer as a batch process. It was determined that with a H2 diffusion rate of 3.7·10-9 mol/s and a theoretical, calculated H2 demand of at least 2.3·10-7 mol/s, the reaction would be hydrogen starved and would not progress at a realistic timescale for observation by AFM. By instead using either ethylbenzene (EB) or styrene (St) as the liquid in a solvent-free approach and injecting a small volume of the other liquid into the system mid-scan, the effects of changes in chemistry on tip-surface interactions were observable. EB injections in both EB and St-immersed scans showed no significant change in phase angle. Injecting St into an EB-immersed scan environment, however, caused an increase in phase which remained relatively constant for the remaining duration of the scan, demonstrating for the first time that a liquid-phase hydrogenation reaction can be observed in operando through the phase shift of tapping mode AFM.
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Structural and functional characterization of reconstituted alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid receptorsBaranovic, Jelena January 2011 (has links)
This thesis describes a novel reconstitution of α-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid receptors (AMPARs) for the purposes of structural characterization by atomic force microscopy (AFM) and functional characterization by electrical recordings of lipid bilayers. AMPARs are glutamate gated ion channels, ubiquitous in the vertebrate central nervous system where they mediate fast excitatory neurotransmission. In a healthy brain, AMPARs are involved in memory formation and learning and their dysfunction has been related to numerous neurological disorders such as Alzheimer's disease, epilepsy, schizophrenia and many others. AMPARs were reconstituted at high and low densities. Densely reconstituted samples contained >100 receptors per μm2, a value comparable to the AMPAR density at synapses. This allowed, for the first time, the imaging of full length tetrameric AMPARs in native-like conditions and with clearly assigned domains: the extracellular domains extended 14 nm above the membrane in agreement with electron microscopy (EM) and X-ray crystallography data. Lipid-protein interactions were studied in samples with low protein density with the receptors showing preference for lipids in the liquid crystalline phase. The activity of the reconstituted receptors was confirmed through single-channel recordings. This is the first case in which an AMPAR has been reconstituted and given (a) single-channel recordings with (b) physiologically plausible conductance levels and (c) pharmacological and no-protein controls and (d) structure. As a result, previously reported biochemistry and EM are now for the first time available in concert with AFM and single-channel recordings for a purified AMPAR of known composition.
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Synthetic and atomic force microscopy studies of offretite/erionite family zeolitesHolmes, Amy Elizabeth January 2012 (has links)
Several members of the ABC-6 zeolite family, namely offretite, zeolite T, ZSM-34 and zeolite L, were synthesised with a view to studying the effect of synthetic parameters on the resulting crystal properties. A range of procedures for producing offretite and ZSM-34 were tested, and crystals with the optimal morphology, purity, crystallinity and size identified. A standard procedure for synthesising zeolite T was used, before the effect of systematically altering the cation concentration, Si/Al ratio and water content in the synthesis mixture was studied, and the optimal composition identified. Ex-situ AFM was used to study the morphology of the resulting crystals, as well as to determine information about surface features, such as the shape and height of terraces. This information could be used to infer the growth mechanism for each crystal. The AFM studies of zeolite L were compared with those of previous studies and found to agree. For offretite, zeolite T and ZSM-34, 1.2 nm high terraces elongated along the length of the {100} face of the crystals were observed. Where the crystals exhibited a micro-crystalline morphology without distinct faces HR-SEM was used to study their morphology and terracing. In-situ AFM was used to study the dissolution of the crystals in basic media. In each case the terraces were observed to dissolve primarily length-wise. The dissolution of terraces on zeolite T was considered in particular detail. The terrace height was measured during dissolution, and three distinct measurements were observed, 1.2, 0.8 and 0.2 nm. These heights were related to framework features. Lateral force AFM measurements were used to show the relationship between decreased terrace height and increased lateral deflection, indicating that dissolving areas of crystal exhibited increased tip-sample friction. The rate of dissolution of terraces on zeolite T was also considered. It was found that dissolution rate increased with increasing NaOH concentration, and with increasing tip-sample force in the AFM. These observations allowed order of reaction for the dissolution process of zeolite T to be estimated at 2.54. A magnesium substituted aluminophosphate ABC-6 family zeotype material, MgAPO-CJ60, was also synthesised and analysed. Solid-state NMR was used to determine the distribution of aluminium and phosphorous within the framework, which was found to be non-random.
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Transport spectroscopy of graphene quantum dots fabricated by atomic force microscope nano-lithographyPuddy, Reuben Kahan January 2014 (has links)
In this report we detail our work fabricating and measuring graphene quantum dots. We investigate a technique, relatively widely used in several other materials but not yet well investigated in graphene, known as Atomic Force Microscope Lithography (AFML). We then use AFML to fabricate graphene quantum dot systems. Transport measurements are carried out on our graphene quantum dots at low temperatures and high parallel magnetic fields and we try to understand the behaviour of spins in graphene. In our initial investigations into AFML we use graphene samples electrically contacted using standard electron-beam lithography. We were able to cut the graphene lattice by applying a negative voltage to the AFM tip and moving the tip across a grounded graphene surface. We have shown, by measuring the current through the AFM tip during lithography, that cutting of graphene is not current driven. Using a combination of transport measurements and scanning electron microscopy we show that , while indentations accompanied by tip current appear in the graphene lattice for a range of tip voltages, real cuts are characterized by a strong reduction of the tip current above a threshold voltage. The flexibility of the technique was then demonstrated by the fabrication, measurement, modification and re-measurement of graphene nanodevices with resolution down to 15 nm. We subsequently developed a shadow-masking technique to electrically contact graphene samples thus eliminating the use of chemical resists and the associated contamination of the graphene surface. With these pristine samples we were able to oxidise and hydrogenate the graphene using AFML. A graphene quantum dot was then fabricated using AFML oxidation. We also fabricated a graphene quantum dot using e-beam lithography in combination with oxygen plasma etching. We studied electron spin physics in these structures by J:1pplying large parallel magnetic fields at low temperatures and performing electrical transport measurements. We do not find an ordered filling sequence of spin states, which we assign to edge disorder and surface charge impurities.
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AFM Indentation Measurements and Viability Tests on Drug Treated Leukemia CellsFortier, Hélène January 2016 (has links)
A significant body of literature has reported strategies and techniques to assess the mechanical properties of biological samples such as proteins, cellular and tissue systems. Atomic force microscopy has been used to detect elasticity changes of cancer cells. However, only a few studies have provided a detailed and complete protocol of the experimental procedures and data analysis methods for non-adherent blood cancer cells. In this work, the elasticity of NB4 cells derived from acute promyelocytic leukemia (APL) was probed by AFM indentation measurements to investigate the effects of the disease on cellular biomechanics. Understanding how leukemia influences the nanomechanical properties of cells is expected to provide a better understanding of the cellular mechanisms associated to cancer, and promises to become a valuable new tool for cancer detection and staging. In this context, the quantification of the mechanical properties of APL cells requires a systematic and optimized approach for data collection and analysis, in order to generate reproducible and comparative data.
This Thesis elucidates the automated data analysis process that integrates programming, force curve collection and analysis optimization to assess variations of cell elasticity in response to processing criteria. A processing algorithm was developed by using the IGOR Pro software to automatically analyze large numbers of AFM data sets in an efficient and accurate manner. In fact, since the analysis involves multiple steps that must be repeated for many individual cells, an automated and un-biased processing approach is essential to precisely determine cell elasticity. Different fitting models for extracting the Young’s modulus have been systematically applied to validate the process, and the best fitting criteria, such as the contact point location and indentation length, have been determined in order to obtain consistent results.
The designed automated processing code described in this Thesis was used to correlate alterations in cellular biomechanics of cancer cells as they undergo drug treatments. In order to fully assess drug effects on NB4 cells, viability assays were first performed using Trypan Blue staining for primary insights before initiating thorough microplate fluorescence intensity readings using a LIVE/DEAD viability kit involving ethidium and calcein AM labelling components. From 0 to 24 h after treatment using 30 µM arsenic trioxide, relative live cell populations increased until 36 h. From 0 to 12 h post-treatment, relative populations of dead cells increased until 24 h post-treatment. Furthermore, a drastic drop in dead cell count has been observed between 12 and 24 h. Additionally, arsenic trioxide drug induced alterations in elasticity of NB4 cells can be correlated to the cell viability tests.
With respect to cell mechanics, trapping of the non-adherent NB4 cells within fabricated SU8-10 microwell arrays, allowed consistent AFM indentation measurements up to 48 h after treatment. Results revealed an increase in cell elasticity up to 12 h post-treatment and a drastic decrease between 12 and 24 h. Furthermore, arsenic trioxide drug induced alterations in elasticity of NB4 cells can be correlated to the cell viability tests.
In addition to these indentation and viability testing approaches, morphological appearances were monitored, in order to track the apoptosis process of the affected cells. Relationships found between viability and elasticity assays in conjunction with morphology alterations revealed distinguish stages of apoptosis throughout treatment. 24 h after initial treatment, most cells were observed to have burst or displayed obvious blebbing. These relations between different measurement methods may reveal a potential drug screening approach, for understanding specific physical and biological of drug effects on the cancer cells.
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Charakterizace adheze tenkých vrstev plazmových polymerů / Adhesion characterization of thin plasma-polymer filmsPálesch, Erik January 2010 (has links)
The diploma thesis deals with characterization of adhesion of plasma polymer films deposited on silicon wafers. The samples included organosilicon thin films based on tetravinylsilane monomer prepared by plasma-enhanced chemical vapour deposition. Scratch test was used to characterize film adhesion employing nanoindentation measurements. Adhesion of plasma polymer films of different mechanical properties and film thickness was analyzed by normal and lateral forces, friction coefficient, and scratch images obtained by scanning probe microscope working in atomic force microscopy mode.
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Povrchové a mechanické vlastnosti tenkých vrstev / Surface and Mechanical Properties of Thin FilmsPálesch, Erik January 2014 (has links)
The doctoral thesis deals with the study of morphology and mechanical properties of thin plasma polymer films based on tetravinylsilane monomer and its mixtures with oxygen and argon. Thin films were prepared by plasma-enhanced chemical vapour deposition on silicon and glass substrates. Atomic force microscopy was used for characterization of thin film surface and for depiction of composite interphase with functional interlayer. Mechanical properties of thin films, namely Young’s modulus and hardness, were studied by cyclic nanoindentation technique. Nanoindentation device was also used to carry out scratch test, which was helpful to describe adhesion of films to substrate. In this thesis the influence of deposition conditions on surface and mechanical properties of thin films prepared in continual and pulse wave on planar substrates is discussed. Also, the suitability of few atomic force microscopy techniques for depiction of composite interphase was reviewed.
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Photo Processing and Microfabrication of Graphene Oxide / 酸化グラフェンの光プロセシングと微細加工Tu, Yudi 26 March 2018 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第21106号 / 工博第4470号 / 新制||工||1695(附属図書館) / 京都大学大学院工学研究科材料工学専攻 / (主査)教授 杉村 博之, 教授 邑瀬 邦明, 教授 山田 啓文 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM
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Probing Surface Charge Densities of Common DielectricsAlghonaim, Abdulmalik 07 1900 (has links)
The value of the surface charge density of polypropylene reported in literature has
a three order of magnitude discrepancy. Nauruzbayeva et al report a 0.7nCcm−2
as the surface charge density of polypropylene as measured using the charge
of electrified droplets[1]. Meagher and Craig reported result 111nCcm−2 as estimated
by electric double layer theory from colloidal probe Atomic force microscopy
(AFM) force spectroscopy [2]. We show that oxidation of hydrophobic
surfaces as a potential mechanism in origin of these surface charges. Using
colloidal probe AFM We measured the surface charge densities of Teflon AF,
perfluorodecanethiol, Perfluorodecyltrichlorosilane(FDTS), Octadecyltrichlorosilane,
polystyrene, and polypropylene. Also, The pH dependence of the surface
charge density for FDTS was studied and it shows the behavior expected of a
weak acid in response to pH. We suspect that the origin of the surface charges
is mostly likely impurities or surface oxidation. We conclude that the electrometer
and dispensed droplets approach cannot detect these charges because of the
process of de-wetting all the surface be neutralized to maintain charge neutrality.
This explanation supports Nauruzbayeva et al claims about surface bound
charges[1].
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