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Variable Structure Control Based Flight Control Systems For Aircraft And MissilesPowly, A A 12 1900 (has links) (PDF)
No description available.
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Nano-antennes optiques pour l'exaltation et le contrôle de la fluorescence moléculaire dans des volumes sub-longueur d'ondeAouani, Heykel 08 September 2011 (has links)
Les nano-antennes optiques permettent la manipulation, le confinement et l'exaltation des champs électromagnétiques dans des volumes sub-longueur d'onde. Les applications de ces nano-objetsconcernent des domaines variés tels que les nano-sources de lumière,la photovoltaïque, la microscopie, la spectroscopie... Les propriétés physiques de ces nano-antennes dépendant essentiellementde leur nature, leurs tailles et leurs géométries, lacaractérisation expérimentale de ces nano-objets est essentielle car elle permet d'en améliorer fortement le design et d'amplifier les réponses électromagnétiques.La problématique de ce travail de thèse concerne la caractérisation et l'exploitation des propriétés de nano-antennes optiques. Différentes techniques de caractérisation expérimentale de nano-antennes ont été développées au cours de cette thèse: spectroscopie de corrélation de fluorescence, suivi de dynamique temporelle de boîtes quantiques, spectroscopie sous saturation de fluorescence. Ces techniques ont été appliqués pour étudier différents types d'antennes optiques: microsphères diélectriques, nano-ouvertures simples et nano-ouvertures corruguées. Réciproquement, ces nano-antennes optiques ont été utilisées pour améliorer efficacement la détection de molécules fluorescentes en solution, avec des exaltations de fluorescence moléculaire supérieures à un facteur 100 et un contrôle de la directivité d'émission de fluorescence, ouvrant ainsi de nouvelles opportunités en biophotonique. / Optical nanoantennas allow manipulation, confinement and enhancement of light in sub-wavelength volumes. The applications of these nano-objects are related to various fields such as nano-lightsources, photovoltaic, microscopy, spectroscopy... The physical properties of these nanoantennas depending mainly on their nature,sizes and geometries, the experimental characterization of thesenano-objects is essential because it allows to improve significantly their design and amplify the electromagnetic responses.The focus of this work concerns the characterization and exploitationproperties of optical nanoantennas. Several experimental characterization techniques of nanoantennas have been developedduring this thesis: fluorescence correlation spectroscopy FCS,temporal dynamics monitoring of quantum dots, spectroscopy bysaturated excitation of fluorescence. These techniques were appliedto study different types of optical antennas: dielectricmicrospheres, bare nanoapertures and corrugated nanoapertures. Theseoptical antennas have been used to effectively improve the detectionof fluorescent molecules in solution, with fluorescence enhancementgreater than a factor of 100, together with a directivity control ofthe fluorescence emission, opening new opportunities inbiophotonics.
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Transient State Monitoring and Fluorescence Correlation Spectroscopy of Flavin Adenine DinucleotideEgnell, Liv January 2014 (has links)
Many human diseases including cancer have been associated with altered cellular metabolism and a changed oxygen consumption in cells. Fluorophores are sensitive to their local environment due to their long life times in transient dark states. A recent study successfully utilized this sensitivity to image differences in oxygen concentrations in cells using transient state (TRAST) microscopy together with fluorescent labels [1]. A natural continuation of this study is to investigate the possibilities of using this method with natural fluorophores already present in cells and thereby avoid articial labeling. Flavin adenine dinucleotide (FAD) is an auto fluorescent coenzyme that is naturally present in cells and involved in cellular metabolism. This project is an exploratory pilot study for cellular measurements with the aim to investigate if FAD can be used to probe oxygen concentrations in aqueous solution using transient state monitoring and fluorescence correlation spectroscopy (FCS). This thesis includes the results from FCS and TRAST experiments on FAD in aqueous solutions with different oxygen concentrations as well as different ascorbic acid concentrations. The performed experiments showed that FAD monitored with TRAST is sensitive to differences in oxygen concentrations for the aqueous solutions used in this study.
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Synthesis and Protein Adsorption Studies of Pegylated-Polyester Nanoparticles with Different Peg ArchitecturesMontenegro-Galindo, Gladys Rocio January 2013 (has links)
No description available.
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Single molecule fluorescence microscopy image analysis for the study of the 2D motion of cellulases and Bcl-2 family proteinsRose, Markus January 2020 (has links)
Biological systems carry inherent complexity, which pose difficulties observing behavioural properties, such as diffusion coefficients, kinetic constants and state switching occurrences. With constantly improving computing power and microscopy technologies, single molecule methods have become a viable alternative when probing the behaviour of proteins, enzymes, lipids and other molecules. Processed microscopy images and videos provide information such as particle intensities and trajectories, avoiding ensemble averaging and therefore allowing for a detailed breakdown of particle mobility and interactions.
A single particle tracking (SPT) algorithm was developed which implements detection, localization and position linking on image stacks. Sub-pixel precise detection is done via either centroid determination, Gaussian fit, or radial symmetry centres, while tracking makes use of distance based global cost optimization. The detection algorithm is also used for single particle spectroscopy, where intensity information is used to determine the size of oligomers, as well as their interaction with other molecules through channel intensity cross-correlation. The algorithm underwent benchmarking with simulated videos and was applied to three different biological systems with comparison to other established methods of analysis.
The first system studied was the diffusion of the fluorescent lipophilic dye DiD in a five-component mitochondria-like solid-supported lipid bilayer. Comparing line-scanning fluorescence correlation spectroscopy (FCS) and single particle tracking, the measured diffusion coefficients were found to be statistically different, with DFCS = 3 μm2s-1 and DSPT = 2 μm2s-1, indicating different operational ranges for the two methods. FCS outperforms SPT when the diffusion coefficient exceeds 1 μm2s-1, making it ideal for lipid diffusion in fluid membranes and proteins in solution with weak membrane interaction. SPT is best suited for mobile and immobile membrane inserted proteins, as well as lipid diffusion in viscous membranes.
The second system studied was the interaction between the two proteins Bax and Bid when inserted in a membrane. Bax and Bid are both members of the Bcl-2 family of proteins, which plays a vital role in the apoptosis mechanism, by inducing mitochondrial outer membrane permeabilization. To study this system with single particle spectroscopy, fluorescently labelled Bax and truncated Bid (tBid) were imaged when interacting with a mitochondria-like supported lipid bilayer with confocal microscopy. Immobile and mobile particles were detected and distinguished based on the eccentricity of the observed fluorescence spot. The intensity of the particle signal was used to determine oligomer type (homo-oligomerization) while the interaction with the particles' counterpart (hetero-oligomerization) was determined by channel cross-correlation. This allowed the measurement of the 2D-KD values for mobile (0.6 μm-2) and immobile (0.08 μm-2) Bax/tBid complexes, showing that the degree of insertion of the proteins in the membrane greatly affect their affinity for each other.
The third and final system studied was the motion of cellulases on cellulose fibers. Enzymatic hydrolysis of crystalline cellulose is a costly step in the generation of fermentable sugars for biofuel production. Due to the complex structure and many possible interaction states of the enzymes with cellulose, single particle tracking is a well-adapted technique to the gathering of information on the enzyme dynamics, which is essential for process optimization. The movement of cellulases on cellulose substrate was observed via labelled Thermobifidia fusca Cel5A, Cel6B and Cel9A on bacterial micro-crystalline cellulose substrate. The detected trajectories were analyzed using multiple diffusion models. A simple one-state diffusion model was insufficient to describe the observed radial displacement distributions and so a two-state model was introduced and confronted with the data using conventional least-squares fits , as well as a hidden Markov approach. The diffusion coefficients of the two states are found to be on the order of Dfast = 10-3 μm2s-1 and Dslow = 10-4 μm2s-1, with the slow state being more stable and therefore more likely to occur.
Single particle tracking can give us better insight into complex interactions, such as synergistic binding of proteins existing in several different states and processive enzymatic behaviour, where ensemble averaging techniques can fall short. The uses of single molecule methods are plentiful and with the current rise of machine learning, higher levels of abstraction will provide us with more detailed insights into biological processes, driving promising developments in the medical field, as well as new technologies in many sectors of industry. / Thesis / Doctor of Science (PhD) / Proteins are the motors that drive most cellular processes, for example steering a cell’s life
cycle, or decomposing sources of nutrients. Being able to observe the motion of individual
proteins is key to understanding their behaviour. In this work a single particle tracking
(SPT) program was developed to extract protein trajectories from fluorescence microscopy
experiments. With this tool-set we investigated the following two systems.
The first system of interest is the Bcl-2 protein family, which is vital during the pro-
grammed cell death at the end of each cell’s life span. The failure of a controlled cell death
can have dire consequences, such as necrosis and cancer. The Bcl-2 family proteins Bid
and Bax are active on the outer membrane of the mitochondria, where they initiate the
process of terminating the cell’s functions by forming pores. For our experiments we ar-
tificially mimicked the outer membrane of the mitochondria, introduced Bid and Bax and
observed their preferential groupings on the membrane surface. This provided indications
of the mechanisms involved during binding and pore formation.
The motivation behind the investigation of the second system is the improvement of
biofuel generation from a renewable source: plant-based biomass. Cellulases are enzymes
from bacteria or fungi that break down cellulose – one of the main building blocks of all
plant cell walls – into fermentable sugars. In fluorescence microscopy experiments a purified
cellulose substrate was used to monitor the motion of three types of cellulases. The insight
which we gained into the cellulase behaviour may allow the optimization of the process of
cellulose decomposition.
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Rôle des domaines transmembraires dans les interactions helice-helice des protéines membranaires bitopiques / Investigating Helix-Helix interactions in bitopic membrane proteinsSawma, Paul 05 July 2013 (has links)
Les protéines membranaires représentent environ le tiers des gènes dans les différents génomes séquencés. La prépondérance de ce type de protéines en terme de cibles thérapeutiques (50 % des médicaments) ainsi que leur implication dans beaucoup de phénomènes cellulaires tel que la transduction d'énergie, le transport de nutriments et la signalisation reflètent leur importance. Les interactions entre protéines membranaires jouent un rôle primordial dans leur structure, leurs fonctions et leur assemblage en complexes. La fonction de la plupart des protéines membranaires est liée à l'assemblage de leurs segments transmembranaires TMs dans la bicouche lipidique. Les segments TMs sont des morceaux de séquences majoritairement hydrophobes d'environ 20 résidus adoptant une structure en hélice alpha. En fait, les interactions entre hélices TMs sont essentielles pour le repliement des protéines membranaires et leur organisation dans la membrane. Pour cette raison, des interactions qualitatives entre domaines TMs de différentes protéines bitopiques ont été caractérisé en utilisant le système du double hybride bactérien (BACTH) basé sur une complémentation protéique de type adénylate cyclase. Ce système a révélé des interactions homo- et hétérologues entre des domaines TMs appartenant à deux familles de récepteurs humains, la famille des récepteurs du facteur de croissance épidermique à activité tyrosine kinase (EGFRs) et les Neuropilines. / Many cellular and biochemical processes/activities are actually carried out by the complexome, which is defined as a set of protein complexes. Identification and characterization of the complexome are essential for a comprehensive understanding and global visioning of cell functions since protein-protein interactions are the core of an entire interactomics system of any living cell. Membrane proteins make up to 30% of proteomes in eukaryotes and prokaryotes. They form a major class of proteins that are essentially involved in vital processes including bioenergetics, signal transduction, cell adhesion, catalysis and so on. Thus, they also represent more than 50% of all currently available drug targets. The function of most membrane proteins is inextricably linked to the proper packing and assembly of their transmembrane (TM) segments in the lipid bilayer. So, deciphering the contribution of TM domains interaction in the assembly of protein complexes will help to understand the dynamic assembly of membrane proteins complexes which are most important in cell signaling. For this reason, qualitative interactions between the TM domains of different bitopic proteins have been characterized using the bacterial adenylate cyclase complementation assay (BACTH). This system has been successfully adapted in the lab to study the homo- and heteromeric associations of selected TM sequences, using well characterized interactions as controls. Moreover, BACTH has revealed TM interactions of two major classes of mammalian membrane receptors, the family of epidermal growth factor receptors (EGFRs) which belongs to receptor tyrosine kinases (RTKs) superfamily and the neuropilins.
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Quelques expériences entre physique, chimie, biologie :<br />formations de boucles dans l'ADN, moteurs moléculaires et<br />ségrégation chromosomique, excitation biphotonique,<br />spectroscopie de corrélation de fluorescence...Allemand, Jean Francois 08 December 2006 (has links) (PDF)
Dans une première partie nous avons utilisé des techniques de<br />micromanipulations de molécules d'ADN uniques avec des pinces magnétiques<br />pour étudier la cinétique et thermodynamique de formation de boucles<br />sur l'ADN par le répresseur GalR. Nous avons également étudié les propriétés<br />de la translocase à ADN FtsK impliquée dans la ségrégation des chromosomes<br />chez E. coli. Dans une seconde partie nous avons mis en place différentes<br />expériences utilisant l'excitation biphotonique. Tout d'abord nous<br />avons construit un dispositif pour mesurer les sections efficaces d'absorption<br />à deux photons de molécules synthétisées au laboratoire.Nous avons ensuite<br />mis en place la technique de corrélation de fluctuations de fluorescence pour<br />mesurer des coefficients de diffusion et des constantes cinétiques.
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Interactions of FCHo2 with lipid membranesChwastek, Grzegorz 29 November 2013 (has links) (PDF)
Endocytosis is one of the most fundamental mechanisms by which the cell communicates with its surrounding. Specific signals are transduced through the cell membrane by a complex interplay between proteins and lipids. Clathrin depended endocytosis is one of important signalling pathways which leads to budding of the plasmalemma and a formation of endosomes. The FCHo2 is an essential protein at the initial stage of the this process. In is a membrane binding protein containing BAR (BIN, Amphiphysin, Rvs) domain which is responsible for a membrane binding. Although numerous valuable work on BAR proteins was published recently, the mechanistic description of a BAR domain functionality is missing. In present work we applied in vitro systems in order to gain knowledge about molecular basis of the activity of the FCHo2 BAR domain. In our studies we used supported lipid bilayers (SLBs) and lipid monolayers as s model membrane system.
The experiments were carried out with a minimal number of components including the purified FCHo2 BAR domain. Using SLBs we showed that the BAR domain can bind to entirely flat bilayers. We also demonstrated that these interactions depend on the negatively charged lipid species incorporated in the membrane. We designed an assay which allows to quantify the membrane tubulation. We found out that the interaction of the FCHo2 BAR domain with the lipid membrane is concentration dependent. We showed that an area of the bilayer deformed by the protein depends on the amount of the used BAR domain.
In order to study the relation between the mobility of lipids and the activity of FCHo2 BAR domain we designed a small-volume monolayer trough. The design of this micro-chamber allows for the implementation of the light microscopy. We demonstrated that the measured lipid diffusion in the monolayer by our new approach is in agreement with literature data. We carried out fluorescence correlation spectroscopy (FCS) experiments at different density of lipids at the water-air interface.We showed that the FCHo2 BAR domain binding affinity is proportional to the mean molecular area (MMA). We additionally demonstrated that the increased protein binding is correlated with the higher lipid mobility in the monolayer.
Additionally, by curing out high-speed atomic force microscopy (hsAFM) we acquired the structural information about FCHo2 BAR domains orientation at the membrane with a high spatio-temporal resolution. Obtained data indicate the BAR domains interact witheach other by many different contact sites what results in a variety of protein orientations in a protein assemble.
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Nanoscale Photonics / From single molecule nanofluidics to light-matter interaction in nanostructuresGhosh, Siddharth 15 August 2016 (has links)
No description available.
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Influence of mesoscopic structures on single molecule dynamics in thin smectic liquid crystal filmsSchulz, Benjamin, Täuber, Daniela, Schuster, Jörg, Baumgärtel, Thomas, von Borczyskowski, Christian January 2011 (has links)
Mesoscopic structures in liquids have an impact on the diffusion dynamics of the constituting molecules. Smectic 8CB liquid crystals on silicon wafers show the formation of mesoscopic structures on the μm scale at a film thickness of 200 nm. Depending on the kind of substrate (thermally grown or native SiOx), we observed the formation of focal conic domains (FCDs) and a new type of terraced holes, respectively. Dynamics are described via single perylene diimide tracer molecule tracking of translational diffusion and in the case of FCDs by a combination of translation and rotation detected via fluorescence correlation spectroscopy. Tailoring perylene diimide molecules such that the optical transition dipole moment follows the liquid crystal director allows mapping out FCDs and investigating the dynamics within a single FCD.
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