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Mutational effects on myosin force generation and the mechanism of tropomyosin assembly on actinSchmidt, William Murphy 12 March 2016 (has links)
The cyclical interaction between the force-generating protein myosin and actin is the mechanism responsible for muscle contraction among all muscle types. Cardiac muscle contraction is tightly controlled to ensure that blood pumps effectively and efficiently from the heart to peripheral organs. Mutations in various cardiac proteins can lead to cardiac dysfunction and a number of cardiomyopathies.
The first part of this dissertation studies two disease-linked mutations in the regulatory light chain of the cardiac myosin molecule, D166V and K104E, and assesses the kinetic and mechanochemical effects of the mutations via the in vitro motility assay. The data show that D166V mutant myosin force generation is reduced compared to wild type, and exogenous phosphorylation of the mutant light chain rescues force generation. In contrast, the K104E mutation showed no deficit in force production but exhibited increased calcium sensitivity of activation. These results are consistent with contractile defects associated with cardiomyopathies caused by various mutation-induced changes to protein function and mechanism of interaction.
The second part uncovers the actin-binding mechanism of one of the chief muscle regulatory proteins tropomyosin. In cardiac and skeletal muscle, tropomyosin and troponin modulate muscle contraction. Tropomyosin binds along the length of actin filaments and blocks myosin-binding sites. Following an excitatory stimulus, calcium binds troponin and causes tropomyosin to shift its position on actin, allowing myosin to bind. The precise mechanism of how tropomyosin monomers with low actin affinity bind to form a stably bound, high affinity chain is unknown. By directly observing fluorescently labeled tropomyosin binding to actin filaments, it was shown that tropomyosin molecules bind randomly along the actin filament. Subsequent monomer binding, and formation of tropomyosin end-to-end bonds, increases the probability of sustained chain growth by decreasing the probability of detachment prior to additional monomer binding. Tropomyosin molecules added to the growing chain at approximately 100 monomers/(μM*s).
Different tropomyosin isoforms segregate to distinct functional and structural regions of cells. The last chapter presents data that show spatial segregation of two different tropomyosin isoforms on actin filaments. This suggests that tropomyosin sorting in cells is, at least partly, an intrinsic property of the binding mechanism.
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How the lysine riboswitch foldsMcCluskey, Kaley A. January 2015 (has links)
To respond to rapidly-changing stresses in their environment, bacterial cells must be able to sense a variety of chemical cues and respond to them by activating the relevant genes. The lysine riboswitch is a short RNA motif, located just upstream of a gene encoding a lysine biosynthesis protein, that suppresses the expression of that gene when sufficient lysine is present in the cell. It acts by binding a lysine monomer in a region called the aptamer, which in turn rearranges an adjacent domain called the expression platform, sequestering the ‘start' sequence of the gene and preventing it from being transcribed. In this thesis, the lysine riboswitch's ligand-binding transition is studied using single-molecule fluorescence microscopy, optical tweezers, and a hybrid optical force/fluorescence technique. Förster Resonance Energy Transfer (FRET) is used with a fluorescently-labeled aptamer to show that it has a previously-undescribed, partially-folded structural state with enhanced ligand affinity compared to the unfolded structure. The Mg²⁺ dependence of the transition between these states is shown to resolve existing debates in the literature about the sensitivity of the riboswitch. The kinetics of the folding transition are explored using FRET, optical force, and hybrid ‘Fleezers' to map the free energy landscape of ligand binding and show that the ligand itself promotes transitions into the aptamer's folded state, a so-called ‘induced fit' mechanism rare among riboswitches. Finally, high-resolution optical tweezers are used to explore the link between the aptamer's secondary structure (the sequence of paired nucleotides) and its tertiary structure (three-dimensional folding) to illuminate the role of ligand binding in gene regulation, which depends on the equilibrium between competing secondary structures. Hybrid biophysical techniques like optical force/fluorescence microscopy are shown to be indispensable for addressing all the states in the reaction pathways of complex biomolecules like riboswitches and for discriminating between multiple levels of structure formation and interaction with the environment. Not only do the results presented here shed light on the RNA folding problem, particularly the role of tertiary structure in determining the minimum-energy configuration of an RNA sequence, but they could have implications for biomedical research, as the lysine riboswitch has already been shown to be a potential target for next-generation antibiotics.
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Probing Dynein Motor Activity in the Intact Chlamydomonas AxonemeFeofilova, Maria 11 June 2019 (has links)
Eukaryotic flagella and cilia are long rod-like extensions of cells, which play a fundamental role in single cell movement, as well as in fluid transport. Flagella and cilia contain a highly evolutionary conserved mechanical structure called the axoneme. The motion of the flagellum is generated by dynein motor proteins, located all along the length of the axonemal structure.
Fluorescent ATP analogs have been a useful tool to study ATPase activity of various motor proteins. \acrfull{mant} has been previously used to probe the activity of various ATPases, including dynein. It has been shown by various authors, that MANT-ATP supports dynein activity as well as the axonemal beat. However, direct observations of binding to the axonemal structure were not previously reported.
Using highly sensitive fluorescent microscopy to monitor the binding of the fluorescent ATP analog, I probed dynein activity directly in the immobilized intact axoneme for the first time.
To understand these kinetics a kinetic model was developed. By fitting this model to experimental data I was able to identify ATP-binding sites with distinct kinetic properties in the axoneme.
I report a turnover rate of k = 0.02 s−1 at 1μM mant-ATP for dynein. Moreover, I discovered that there is binding of the ATP analog to the axoneme with a much higher rate of k = 11 s−1 at 1μM mant-ATP. By the application of this method to axonemes with reduced dyneins, it has been identified that the slow rate belongs to dynein.
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La machinerie de motilité de Myxococcus xanthus : caractérisation d'une nouvelle famille de moteurs moléculaires dans l'enveloppe bactérienne / The motility machinery of Myxococcus xanthus : characterization of a new molecular motor family in the bacterial cell envelopeFaure, Laura 18 January 2017 (has links)
Dans les cellules il existe deux grandes sources d’énergie : l’ATP et la force proton-motrice, produites au niveau du cytoplasme et de la membrane interne respectivement. La mise en place de processus actifs dans la membrane externe ou à la surface des bactéries à Gram négatif requière la présence de machineries protéiques transmettant les forces de leur lieu de production à leur lieu d’utilisation. Durant ma thèse j’ai étudié une de ces machines : la machinerie de motilité (Agl-Glt) de Myxococcus xanthus. Plus précisément, j’ai cherché à comprendre comment les composants de cette machine s’organisent pour permettre le déplacement d’une bactérie. J’ai montré que l’assemblage de la machinerie de motilité au pôle avant des cellules nécessite la formation d’une plateforme cytosolique sur laquelle vient se fixer la machine Agl-Glt. Sous l’action du moteur, le complexe interne de la machine se déplace en direction du pôle arrière en suivant une trajectoire hélicoïdale de main droite. Au niveau de la surface les protéines de membrane externe sont recrutées au niveau d’adhésions focales et permettent l’ancrage de la machinerie au substrat. Enfin, la transmission des forces de la membrane interne à la surface par la machinerie de motilité génère le déplacement des cellules selon une trajectoire hélicoïdale de main gauche. Finalement, cette étude a révélé l’existence d’une machine protéique de l’enveloppe dont l’activité repose sur l’association d’un moteur linéaire et du cytosquelette bactérien. De par l’homologie qu’il existe entre les systèmes il est possible de proposer que ce type de machines peut-être retrouvé associées à d’autres fonctions que la motilité cellulaire. / Two energy sources are present in cells: the ATP and the Proton Motive Force, produced in the cytoplasm and inner membrane respectively. Active processes in the outer membrane or on the surface of Gram negative bacteria require the presence of a proteic machinery to transduce the forces from their production site, in the cytoplasm or inner membrane, to their usage site. During my thesis I have studied one of these machineries: the motility machinery (Agl-Glt) of Myxococcus xanthus. More precisely, I try to understand how the components of this transmembrane machinery interact with each other to promote cell motility. I have shown that the assembly of the motility machinery at the leading pole requires the formation of a cytoplasmic platform onto which the Agl-Glt machinery is going to nucleate. The inner-membrane motor complex moves intracellularly along a right-handed path in the cell and becomes stationary at focal adhesion sites on the surface through the connection of the motor to the outer membrane proteins of the complex. This powers the left-handed helical motion of the bacteria. Finally, this study reveals the existence of a dynamic transmembrane machinery which associates the bacterial cytoskeleton to a linear motor to promote cell movement. The homology between the systems tells us that this type of motor is likely to be found associate with other function than cell motility.
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Are Mitochondria a Potential Target for Anti-Cancer Therapy in Carcinoid Tumors?Zahedi, Shadi 02 September 2010 (has links)
No description available.
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Síntese, caracterização, estudos fotofísicos e acompanhamento in situ da reação de formação do corante (E)-2-[3-[4-(difenilamina)-fenil]-1-(p-tolil)-alilideno] malononitrila por microscopia de fluorescência / Synthesis, characterization, photophysics studies and monitoring in situ of the dye forming reaction (E) -2- [3- [4- (diphenylamine) phenyl] -1- (p-tolyl) -alilideno] malononitrile by fluorescence microscopyLino, Aline Monteiro 18 February 2016 (has links)
Neste trabalho foi sintetizado o corante (E)-2-[3-[4-(difenilamina)-fenil]-1-(p-tolil)- alilideno]-malononitrila (DFTAM), a partir da reação de condensação entre 4- (difenilamino)-benzaldeído e 2- [1- (4- metilfenil)-etilideno]-malononitrila, com catálise básica de piperidina. O produto obtido foi purificado por cromatografia líquida de alta eficiência (HPLC) e caracterizado pelas técnicas de espectrometria de massas, ressonância magnética nuclear de 13C e 1H e espectroscopia no infravermelho com transformada de Fourier. Para estudar suas propriedades fotofísicas, espectros de absorção e emissão de fluorescência, decaimento de fluorescência e espectro de absorção de transientes foram feitos em diferentes solventes, variando-se a polaridade e viscosidade do meio. Duas bandas de absorção foram observadas, uma em 303 nm e outra em cerca de 490 nm, a qual apresentou deslocamento batocrômico com o aumento da polaridade do solvente. Para essa região de excitação a banda de emissão variou entre 517 e 630 nm, com o aumento da polaridade do meio. Os decaimentos de fluorescência mostraram duas componentes, uma na ordem de picossegundos e a outra de nanossegundos. Os experimentos de absorção de transientes apresentaram três espécies, uma mais longa (maior que 10 ms) e duas outras de cerca 2 e 22 μs. Surfactantes catiônicos, não iônico, e aniônico também foram usados para produzir micelas e fazer os experimentos já citados. Pôde-se observar que o corante interagiu com as micelas, melhorando sua fluorescência e aumentando o tempo de vida do estado singleto. Por fim, acompanhou-se in situ, através da técnica de microscopia TIRF, a reação de formação de DFTAM a nível single molecule com catalise básica de nanopartículas de MgO e lamínulas de vidro funcionalizadas com piperazina. Através da intermitência de fluorescência dos filmes feitos de ambas as amostras, observou-se a formação de moléculas do corante através de ciclos de catálise da piperazina. / In this project the synthesis of (E) -2- [3- [4- (diphenylamine) phenyl] -1- (p-tolyl) - allylidene] -malononitrile (DFTAM) dye, from the condensation reaction between 4- (diphenylamino) benzaldehyde and 2- [1- (4-methylphenyl) ethylidene]-malononitrile using piperidine basic catalysis has been achieved. The dye was purified by high-performance liquid chromatography (HPLC) and characterized by mass spectrometry, nuclear magnetic resonance 13C and 1H and Fourier Transform infrared spectroscopy techniques. To study DFTAM photophysical properties, absorption and fluorescence emission spectra, fluorescence decay and transient absorption spectrum were recorded in solvents with different polarity and viscosity. Two absorption bands of DFTAM were observed, the first one at 303 nm was solvent independent while the second one at about 490 nm, had bathochromic shift with increasing polarity of the medium. In the visible region of excitation the maximum of the dye emission band observed varied between 517 and 630 nm, upon increasing solvent polarity. Fluorescence decays showed two distinct components, a fast one in picosecond time scale and a slow one in nanoseconds. Transient absorption experiments indicated the presence of three species with different lifetimes, one longer than 10 ms and the other two with lifetimes about 2 and 22 μs. Cationic, nonionic, anionic surfactants were also used to produce micelles for easy solubilization of DFTAM. It was observed that the dye interacted with the micelles, improving its fluorescence yield and lifetime. Finally, the DFTAM formation reaction was monitored in situby TIRF wide field microscopy technique at single molecule level. The basic catalysis was tested for MgO nanoparticles and glass surface functionalized with bound piperazine. Through the fluorescence intermittency time trace obtained from TIRF movies, the discrete formation of dye molecules was only observed in the case of piperazine catalytic cycles.
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Untersuchungen zum Adhäsions- und Migrationsverhalten eukaryotischer Zellen auf künstlichen SubstratenJoos, Uta S. 23 May 2007 (has links)
Der zerstörungsfreien Charakterisierung und Analyse von lebenden humanen Zellen über längere Zeiträume kommt zukünftig in Medizin und Biotechnologie eine zentrale Rolle zu. Für eine therapeutische Nutzung müssen die Zellen nach der Analyse unverändert und vital vorliegen. Ein Ansatz beruht auf der Analyse von nanoskopischen Zellrückständen, die von Zellen während der Migration hinterlassen werden, den Zellspuren. Diese spiegeln in repräsentativer Weise die Merkmale der Erzeugerzelle wider. Für die technische Nutzung muss der Entstehungsprozess reproduzierbar kontrolliert werden können. Im Zusammenhang wurde ein Versuchsaufbau zur Beobachtung der dynamischen Prozesse Adhäsion, Migration und substratnahe Organisation des Zytoskeletts von lebenden Zellen entwicklet, der hochauflösende Langzeitbeobachtungen mittels Totaler Interner Reflexions Fluoreszenz (TIRF-) Mikroskopie ermöglicht. Zur Auswertung wurde eine auf Falschfarben beruhende Darstellungsweise der dynamischen Prozesse entwickelt. Es konnte eine Korrelation der Eigenschaften der Zellspuren mit dem Adhäsions- und Migrationsverhalten, sowie dem Aufbau der substratnahen Bereiche des Zytoskeletts der Erzeugerzellen nachgewiesen werden. Ebenso wurde der Einfluss der oberflächenspezifischen Substrateigenschaften (Beschichtung oder topografische Strukturierung) auf die Zellspurablage gezeigt. / Nondestructive characterisation and analysis of human living cells over a long period will be an important issue for medicin and biotechnology in the near future. In order to use the cells after analysis for therapeutical applications, the cells have to be unmodified and still alive after the analytical procedure. The analysis of nanoscopic cell residues, called cell traces, which are left behind during cell migration represent an appropriate approach. Attributes of the donor cell are shown by the cell trace characteristically. In order to use cell traces for biotechnological applications the formation and deposition of cell traces has to be repeatable. Thus, an experimental set up using Total Internal Fluorescence Microscopy (TIRF) has been established to observe the dynamic processes of cell adhesion, cell migration and the organisation of the cytoskeleton used therein. Using miscolours a new embodiment has been developed to evaluate dynamic processes. Cell adhesion, cell migration and the organisation of the actin cytoskeleton of the donor cells have been found to influence the attributes of cell traces. Further specific modified surfaces have been used to influence the deposition of cell traces. Effects have been shown for coated surfaces or surfaces with a topographic structure.
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The role of 1D diffusion for directional long-range communication on DNASchwarz, Friedrich 18 April 2013 (has links) (PDF)
Many genetic processes require enzymes or enzyme complexes that interact simultaneously with distant sites along the genome. Such long-range DNA-enzyme interactions are important for example in gene regulation, DNA replication, repair and recombination. In addition many restriction enzymes depend on interactions between two recognition sites and form therefore a model system for studying long-range communications on DNA.
Topic of the present work are Type III restriction enzymes. For these enzymes the communication mechanism between their distant target sites has not been resolved and conflicting models including 3D diffusion, 1D translocation and 1D diffusion have been proposed. Also the role of ATP hydrolysis by their superfamily 2 helicase domains which catalyse functions of many enzyme systems is still poorly understood. To cleave DNA, Type III restriction enzymes sense the relative orientation of their distant target sites and cleave DNA only if at least two of them are situated in an inverted repeat. This process strictly depends on ATP hydrolysis. The aim of this PhD thesis was to elucidate this long-range communication.
For this a new single molecule assay was developed using a setup combining magnetic tweezers and objective-type total internal reflection fluorescence microscopy. In addition of being able to mechanically manipulate individual DNA molecules, this assay allows to directly visualize the binding and movement of fluorescently labelled enzymes along DNA.
Applying this assay to quantum dot labelled Type III restriction enzymes, a 1D diffusion of the enzymes after binding at their target sites could be demonstrated. Furthermore, it was found that the diffusion depends on the nucleotide that is bound to the ATPase domains of these enzymes. This suggested that ATP hydrolysis acts as a switch to license diffusion from the target site which leads to cleavage.
In addition to the direct visualization of the enzyme-DNA interaction, the cleavage site selection, the DNA end influence (open or blocked) and the DNA binding kinetics were measured in bulk solution assays (not part of this thesis). The experimental results were compared to Monte Carlo simulations of a diffusion-collision-model which is proposed as long-range communication in this thesis.
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Single-molecule experiments with mitotic motor proteins / Einzelmolekül-Experimente mit mitotischen MotorproteinenThiede, Christina 28 September 2012 (has links)
No description available.
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Síntese, caracterização, estudos fotofísicos e acompanhamento in situ da reação de formação do corante (E)-2-[3-[4-(difenilamina)-fenil]-1-(p-tolil)-alilideno] malononitrila por microscopia de fluorescência / Synthesis, characterization, photophysics studies and monitoring in situ of the dye forming reaction (E) -2- [3- [4- (diphenylamine) phenyl] -1- (p-tolyl) -alilideno] malononitrile by fluorescence microscopyAline Monteiro Lino 18 February 2016 (has links)
Neste trabalho foi sintetizado o corante (E)-2-[3-[4-(difenilamina)-fenil]-1-(p-tolil)- alilideno]-malononitrila (DFTAM), a partir da reação de condensação entre 4- (difenilamino)-benzaldeído e 2- [1- (4- metilfenil)-etilideno]-malononitrila, com catálise básica de piperidina. O produto obtido foi purificado por cromatografia líquida de alta eficiência (HPLC) e caracterizado pelas técnicas de espectrometria de massas, ressonância magnética nuclear de 13C e 1H e espectroscopia no infravermelho com transformada de Fourier. Para estudar suas propriedades fotofísicas, espectros de absorção e emissão de fluorescência, decaimento de fluorescência e espectro de absorção de transientes foram feitos em diferentes solventes, variando-se a polaridade e viscosidade do meio. Duas bandas de absorção foram observadas, uma em 303 nm e outra em cerca de 490 nm, a qual apresentou deslocamento batocrômico com o aumento da polaridade do solvente. Para essa região de excitação a banda de emissão variou entre 517 e 630 nm, com o aumento da polaridade do meio. Os decaimentos de fluorescência mostraram duas componentes, uma na ordem de picossegundos e a outra de nanossegundos. Os experimentos de absorção de transientes apresentaram três espécies, uma mais longa (maior que 10 ms) e duas outras de cerca 2 e 22 μs. Surfactantes catiônicos, não iônico, e aniônico também foram usados para produzir micelas e fazer os experimentos já citados. Pôde-se observar que o corante interagiu com as micelas, melhorando sua fluorescência e aumentando o tempo de vida do estado singleto. Por fim, acompanhou-se in situ, através da técnica de microscopia TIRF, a reação de formação de DFTAM a nível single molecule com catalise básica de nanopartículas de MgO e lamínulas de vidro funcionalizadas com piperazina. Através da intermitência de fluorescência dos filmes feitos de ambas as amostras, observou-se a formação de moléculas do corante através de ciclos de catálise da piperazina. / In this project the synthesis of (E) -2- [3- [4- (diphenylamine) phenyl] -1- (p-tolyl) - allylidene] -malononitrile (DFTAM) dye, from the condensation reaction between 4- (diphenylamino) benzaldehyde and 2- [1- (4-methylphenyl) ethylidene]-malononitrile using piperidine basic catalysis has been achieved. The dye was purified by high-performance liquid chromatography (HPLC) and characterized by mass spectrometry, nuclear magnetic resonance 13C and 1H and Fourier Transform infrared spectroscopy techniques. To study DFTAM photophysical properties, absorption and fluorescence emission spectra, fluorescence decay and transient absorption spectrum were recorded in solvents with different polarity and viscosity. Two absorption bands of DFTAM were observed, the first one at 303 nm was solvent independent while the second one at about 490 nm, had bathochromic shift with increasing polarity of the medium. In the visible region of excitation the maximum of the dye emission band observed varied between 517 and 630 nm, upon increasing solvent polarity. Fluorescence decays showed two distinct components, a fast one in picosecond time scale and a slow one in nanoseconds. Transient absorption experiments indicated the presence of three species with different lifetimes, one longer than 10 ms and the other two with lifetimes about 2 and 22 μs. Cationic, nonionic, anionic surfactants were also used to produce micelles for easy solubilization of DFTAM. It was observed that the dye interacted with the micelles, improving its fluorescence yield and lifetime. Finally, the DFTAM formation reaction was monitored in situby TIRF wide field microscopy technique at single molecule level. The basic catalysis was tested for MgO nanoparticles and glass surface functionalized with bound piperazine. Through the fluorescence intermittency time trace obtained from TIRF movies, the discrete formation of dye molecules was only observed in the case of piperazine catalytic cycles.
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