Global ETD Search

41	Die Proteine HA und M2 von Influenzaviren / Bedeutung ihrer Acylierungen sowie der amphiphilen Helix von M2 für die Virusassemblierung und -knospung Siche, Stefanie 12 May 2016 (has links) Die Assemblierung von Influenzaviren erfolgt an Rafts der apikalen Wirtszellplasmamembran mit denen das Hämagglutinin (HA) über Acylierungen im C-Terminus und hydrophobe Aminosäuren seiner Transmembrandomäne (TMD) interagiert. M2 besitzt eine cytoplasmatische amphiphile Helix (AH), die ebenso potenzielle Raft-Motive aufweist: Eine Acylierung und Cholesterol-Bindemotive. In dieser Arbeit wurde per Konfokalmikroskopie an polarisierten Zellen, die fluoreszenzmarkierte M2-Varianten exprimierten, gezeigt, dass diese M2-Motive nicht für den apikalen Transport, der vermutlich durch Raft-ähnliche Vesikel erfolgt, benötigt werden. Messungen des Förster-Resonanzenergietransfers über Fluoreszenz-Lebenszeit-Mikroskopie (FLIM-FRET) in der Plasmamembran lebender Zellen, die fluoreszenzmarkiertes HA und M2 koexprimierten, ergaben, dass diese Motive auch nicht für die Interaktion mit den durch HA, in Abhängigkeit von dessen Raft-Motiven, stabilisierten Raft-Domänen notwendig sind. Mittels reverser Genetik konnten infektiöse WSN-Viren mit fehlender Acylierung am Ende der HA-TMD, nicht jedoch Viren ohne die zwei cytoplasmatischen Acylierungen hergestellt werden. Weiterhin ergaben Wachstumsanalysen, dass die Acylierung von HA und M2 für den gleichen Schritt des viralen Replikationszyklus von Bedeutung sind. Für die M2-AH wurde postuliert, dass sie die Membrankrümmung detektiert und durch Insertion in die Wirtszellmembran die Virusabschnürung bewirkt. Infektiöse Viren ohne M2 oder ohne die AH konnten ebenso wie Viren mit M2 mit einer Helix mit reduzierter Amphiphilität in dieser Arbeit nicht hergestellt werden. Allerdings führte die Substitution der AH durch typische krümmungsdetektierende oder modulierende Helices zu Viren, deren Wachstum um zwei bis vier Titerstufen im Vergleich zum Wildtyp reduziert war. Die Helix-Amphiphilität scheint wichtig zu sein, aber auch die Sequenz oder bestimmte Aminosäuren sind offenbar für eine effiziente Virusreplikation notwendig. / The assembly of influenza virus particles occurs at the apical plasma membrane of the host cell at membrane rafts which the hemagglutinin (HA) interacts with via acylations in its C-terminal region and via hydrophobic amino acids in the transmembrane domain (TMD). M2 possesses a cytoplasmic amphiphilic helix (AH) that also contains potential raft motifs: an acylation and cholesterol-binding motifs. In this work, confocal microscopy of polarised cells, which were expressing fluorescently labelled M2-variants, demonstrated that these motifs of M2 are not required for apical transport, which is assumed to be mediated by raft-like vesicles. Furthermore, FLIM-FRET (Förster resonance energy transfer measured via fluorescence lifetime imaging microscopy) analyses, performed in the plasma membrane of living cells coexpressing fluorescently labelled HA and M2, revealed that these M2-motifs are not required for association with the large coalesced raft phase organised by HA. In contrast, deleting HA’s raft-targeting features clearly reduced clustering with M2. While the removal of the two cytoplasmic acylations prevented the rescue of infectious virus by reverse genetics, a mutant virus without acylation in the HA-TMD could be rescued. Moreover, growth analyses revealed that the acylations of HA and M2 are important for the same step in the viral replication cycle. It has been postulated that the M2-AH detects membrane curvature and accomplishes membrane scission by inserting into the host cell membrane. Viruses without M2, without the M2-AH or with M2 containing a helix with reduced amphiphilicity could not be produced in this work. However, substituting the AH by typical curvature-sensing or -generating helices led to viruses with two to four orders of magnitude reduced growth as compared to wildtype virus. The amphiphilicity of the helix seems to be important, but also the sequence or specific amino acids appear to be necessary for an efficient virus replication. Influenzavirus FLIM-FRET Acylierung Reverse Genetik Raft-Motive amphiphile Helix FLIM-FRET Influenza virus acylation reverse genetics raft motifs amphiphilic helix 570 Biologie 32 Biologie WF 4650 ddc:570
42	The signal transduction of synapse formation and it's failure in Rett syndrome Ebrecht, René 12 May 2016 (has links) No description available. 572 Neuroscience FRET Microscopy FLIM Rett syndrome mTOR Gephyrin Time correlated single photon counting
43	Studium UV světlem generovaných fluorescenčních komplexů zinku pomocí fluorescenční spektroskopie / Study of UV-generated fluorescent zinc complexes by fluorescence spectroscopy Havlíková, Martina January 2019 (has links) This thesis focuses on the study of UV light-generated zinc complexes with cadmium and organic molecules SAM, SAH, CYS, HCYS and GSSG, specifically at 375 nm. Furthemore, the aim of the work is to characterize the precursors spectrally and temporally before and after irradiation in the transilluminator at 250 nm. Study of genesis these complexes was performed by FLIM. Thanks to this method, it was found that the formation of complexes occurs only with Zn:SAH, Zn:GSSG and Zn:Cd. The formation of complexes is influenced by the method of preparation. The spectral characteristic was performed on a fluorimeter where the increase in fluorescence intensity of the irradiated solution with the precursors was expected. These were turbid solutions where sedimentation of the particles was observed and the intensity of fluorescence was changed. In the Zn:SAM and Zn:CYS sample, the sedimentation increased in intensity, while in Zn:SAH and Zn:HCYS decreased. The Zn:Cd precursor solution was clear and there was no change in intensity. Zn:Cd showed the best spectral properties, while the Zn:SAM sample, whose excitation and emission maxima are very close to each other, appeared to be the worst. A sample with Zn:CYS and Zn:HCYS showed almost the same spectra and respective peak results. Based on lifetime characteristics by TCSPC, the sample with Zn:CYS, Zn:HCYS and Zn:GSSG, which showed 3 lifetimes, was best treated. Lifetime could not be unambiguously determined for SAM and SAH samples. Zn:Cd had 4 lifetimes
44	Softwarové řešení systému FLIM s využitím pulsního laditelného laseru v konfokální mikroskopii / Software FLIM system with pulse white light laser in confocal microscopy Grund, Pavel January 2015 (has links) The theoretical part of this master's thesis is focused on research of confocal microscopy and FLIM method. There are a principles and types of confocal microscopy and the use of broad-spectrum laser as a basic light source of these microscopes. It gives what the FLIM method and its use not only in cell biology. The practical part thesis includes the acquisition of three sets of fluorescence intensity images with use of applications tunable pulsed laser, function TimeGate and detection of hybrid detectors. For practical elaboration of this thesis is in the software Fiji created a plugin, which is the source code in the Java programming language. The types of plugins and their uses are described in the third chapter of the thesis. This plugin including the graphical user interface in the form of the dialog box, proceses the fluorescence intensity images and creates a graphical representation of data showing the fluorescence lifetime, so called pseudocolor map.
45	Molecular DNA Sensors to Measure Distribution of Cytoskeletal Forces Jayachandran, Christina 27 September 2019 (has links) No description available. 571.4 DNA based molecular force sensors FRET FLIM Frequency response of networks Bulk fluorescence measurements Actin-DNA sensor networks Biologie (PPN619462639)
46	Development of a multifocal confocal fluorescence lifetime imaging microscope for high-content screening applications Tsikouras, Anthony January 2017 (has links) Fluorescence lifetime imaging microscopy (FLIM) is an imaging modality that is able to provide key insights into subcellular processes. When used to measure Förster resonance energy transfer (FRET), for instance, it can discern protein-protein interactions and conformational changes. This kind of information is highly useful in the drug screening process in order to determine the effectiveness of drug leads and their mechanisms of action. FLIM has yet to be successfully translated to high-content screening (HCS) platforms due to the high throughput and fine temporal and spatial resolution requirements of HCS. Our prototype HCS FLIM system uses a time-resolving instrument called a streak camera to multiplex the FLIM scanning process, allowing for 100 confocal spots to be simultaneously scanned across a sample. There have been a few major advancements to the prototype. First the fiber array used to connect the fluorescence channels to the streak camera was characterized. Its alternating fiber delay scheme was successful in greatly reducing optical crosstalk between adjacent channels. Next, an optical beam scanner for parallel excitation beams was designed and implemented, greatly improving the possible scan speeds of the system. The streak camera was upgraded to a higher repetition rate sweep, and modifications to system components and reconstruction procedures were made to accommodate the new sweep unit. A single-photon avalanche diode array was also tested as a possible replacement for the streak camera, and was found to offer photon detection efficiency advantages. Finally, improvements were made to the excitation power and optical throughput of the system in order to reduce the required exposure time. These advances to the prototype system bring it closer to realizing the requirements of HCS FLIM, and provide a clear picture for future improvements and research directions. / Thesis / Doctor of Philosophy (PhD) / Fluorescent proteins are commonly used to tag subcellular targets so that they can easily be distinguished with a fluorescence microscope. While this can help visualize where different organelles and proteins are located in the cell, a great deal more information can be gained by measuring the fluorescence lifetime at each point in the sample, which is highly sensitive to the microenvironment. Fluorescence lifetime imaging microscopy (FLIM) has the potential to be a powerful technique for testing drug leads in the drug discovery process, although current FLIM systems are not able to provide the high throughput speeds and high temporal resolution required for drug screening. This thesis project has succeeded in improving a highly parallel FLIM microscope by reducing inter-channel crosstalk, implementing an optical scanner, improving power and optical throughput, and investigating future time-resolving instruments. This progress has brought the prototype setup closer to being used in a drug screening environment. multifocal confocal fluorescence lifetime FLIM microscopy high-content screening streak camera photonics optics beam scanning SPAD TCSPC
47	INVESTIGATING PROTEIN AGGREGATION IN NEURODEGENERATIVE DISEASES USING FLUORESCENCE LIFETIME IMAGING MICROSCOPY Paula-Marie Ivey (20379645) 04 December 2024 (has links) <p dir="ltr">Alpha-synuclein protein aggregation, involving the recruitment of native monomeric protein by fibrillar seeds, has been proposed as the event that precipitates Parkinson’s disease pathology. However, the specific molecular processes underlying this aggregation are not fully understood, mirroring the limitations seen in understanding the etiology of other prion-like neurodegenerative diseases. There are proposed mechanisms connecting alpha-synuclein aggregation to endocytic processes involving the escape and retention of fibrillar seeds. Additionally, intracellular protein-membrane interactions may also play a role. However, effective methods to probe the evolution of aggregation states with sufficient sensitivity in the context of these cellular processes are lacking.</p><p dir="ltr">A time-gated fluorescence lifetime imaging microscope system was developed to monitor the evolution of seeded aggregation in primary neurons in the context of endocytic processes that have yet to be well explored. This aggregation monitoring was enabled by measuring self-quenching-induced fluorescence lifetime changes of alpha-synuclein-fluorophore fusion proteins, providing a sensitive aggregate detection method. Results from this work demonstrate that both escape and retention of fibrillar seeds from endocytic compartments are seeding pathways for aggregation. In addition, a novel imaging scheme was developed using fluorescence lifetime measurements of tethered Förster resonance energy transfer (FRET) reporters to probe membrane-induced alpha-synuclein aggregation. Using this method in neurons enabled deciphering of which intracellular membrane surfaces likely play a role in alpha-synuclein aggregation.</p><p dir="ltr">This work used fluorescence lifetime imaging to enable insights into the underlying mechanisms of alpha-synuclein aggregation in neurons. This has broader applications to other prion-like neurodegenerative diseases. These insights further our understanding of neurodegenerative disease etiology and can inform more effective treatments. Additionally, an approach to noise estimation that enables accurate extraction of fluorescence lifetime information in the presence of substantial detector noise is presented. This will enable longer-term multi-time-point fluorescence lifetime imaging of aggregation in neurons.</p> fluorescence lifetime imaging (FLIM) neurosciences neurodegenarative disease alpha-synuclein aggregation Parkinson's disease
48	Orientation and organization of the presynaptic active zone protein Bassoon: from the Golgi to the synapse Ghelani, Tina 12 May 2016 (has links) No description available. 570 Bassoon AZ assembly STED imaging FRET-FLIM imaging Super-resolution imaging Cytomatrix of the active zone Orientation of Active Zone (AZ) proteins Biologie (PPN619462639)
49	Organizace a mobilita receptorů spřažených s G proteiny v plasmatické membráně / Organization and mobility of G protein-coupled receptors in plasma membrane Merta, Ladislav January 2014 (has links) This diploma thesis deals with the analysis of structural and dynamic organization of thyrotropin releasing hormone receptor (TRH-R) and δ-opioid receptor (DOR) within plasma membrane (PM) in relation to the specific sub-compartments of PM denominated as domains or membrane rafts. Modern fluorescence microscopy techniques FLIM, FRAP and RICS were used for this purpose. The experiments were performed on the live cells derived from HEK293 cell line. To reach the main goal of this work, the integrity of PM structure was altered by depletion of cholesterol which was performed by incubation of cells with β cyclodextrin. Results clearly support our previously suggested idea that the vast majority of TRH-R is localized in non-raft regions of plasma membrane. This work also compared different modes of performance of FRAP and results obtained by FRAP and RICS because these methods are to some extent analogous. This is one of the first works that used the RICS approach to characterize the G protein-coupled receptors. In the second part of this work, the setup of transient transfection of the HEK293 cells with DOR-ECFP and DOR EYFP constructs was established. Simultaneously, the functionality of these constructs, i.e. the ability of DOR to activate the cognate G protein was determined. Powered by TCPDF (www.tcpdf.org)
50	Imagerie des déclins de fluorescence pour l'étude de la dynamique et des interactions de macromolécules en cellules vivantes Tramier, Marc 27 April 2001 (has links) (PDF) Le but de notre travail est de développer une imagerie des déclins de fluorescence et d'en démontrer les potentialités pour l'étude de la dynamique macromoléculaire et des interactions entre macromolécules en cellules vivantes. Notre approche repose sur la mesure de la corrélation temporelle de photons uniques de fluorescence (TCSPC) simultanément à la détermination de la localisation spatiale (le long d'une ligne) de la région d'émission. Des images monodirectionnelles de déclins de fluorescence ont ainsi été obtenues représentant la cinétique de fluorescence en différentes régions subcellulaires. Nous avons également mis au point la mesure de déclins d'anisotropie de fluorescence provenant d'un petit volume subcellulaire (1 µm3) sous microscope en mode confocal. Les résultats présentés dans ce mémoire démontrent l'intérêt de cette approche technologique pour des problématiques de biologie cellulaire. Le marquage fluorescent endogène de protéines a été réalisé en les fusionant à la GFP ou un de ses variants spectraux. Les interactions protéine-protéine ont été étudiées soit par hétéroFRET en mesurant la diminution de la durée de vie de fluorescence du chromophore donneur, soit par homoFRET en mesurant la cinétique de dépolarisation de la fluorescence. Nous avons mis en évidence (i) la formation d'hétérodimères de p45 du facteur de transcription NF-E2 avec deux partenaires dans différents compartiments subcellulaires par hétéroFRET, et (ii) l'homodimérisation de la thymidine kinase du virus de l'herpès simplex type 1 de façon plus concluante par homoFRET que par hétéroFRET. Par ailleurs, la mesure des déclins d'anisotropie de fluorescence de l'éthidium comme sonde de la dynamique torsionnelle de l'ADN a révélé l'existence d'une très forte restriction de cette dynamique dans la chromatine non perturbée. Les développements supplémentaires de notre système pour une imagerie bi-dimensionnelle puis tri-dimensionnelle sont prometteurs. [SDV:BC] Life Sciences/Cellular Biology microscopie de fluorescence durée de vie de fluorescence anisotropie de fluorescence FLIM cellules vivantes FRET GFP

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