Global ETD Search

51	Optical sorting and photo-transfection of mammalian cells Mthunzi, Patience January 2010 (has links) Recently, laser light sources of different regimes have emerged as an essential tool in the biophotonics research area. Classic applications include, for example: manipulating single cells and their subcellular organelles, sorting cells in microfluidic channels and the cytoplasmic delivery of both genetic and non-genetic matter of varying sizes into mammalian cells. In this thesis several new findings specifically in the optical cell sorting as well as in the photo-transfection study fields are presented. In my optical cell sorting and guiding investigations, a new technique for enhancing the dielectric contrast of mammalian cells, which is a result of cells naturally engulfing polymer microspheres from their environment, is introduced. I explore how these intracellular dielectric tags influence the scattering and gradient forces upon these cells from an externally applied optical field. I show that intracellular polymer microspheres can serve as highly directional optical scatterers and that the scattering force can enable sorting through axial guiding onto laminin coated glass coverslips upon which the selected cells adhere. Following this, I report on transient photo-transfection of mammalian cells including neuroblastomas (rat/mouse and human), embryonic kidney, Chinese hamster ovary as well as pluripotent stem cells using a tightly focused titanium sapphire femtosecond pulsed laser beam spot. These investigations permitted advanced biological studies in femtosecond laser transfection: firstly, the influence of cell passage number on the transfection efficiency; secondly, the possibility to enhance the transfection efficiency via whole culture treatments of cells thereby, synchronizing them at the mitotic (M phase) as well as the synthesis phases (S phase) of the cell cycle; thirdly, this methodology can activate the up-regulation of the protective heat shock protein 70 (hsp70). Finally, I show that this novel technology can also be used to transfect mouse embryonic stem (mES) cell colonies and the ability of differentiating these cells into the extraembryonic endoderm. 571.6
52	Detekce a klonogenní analýza nádorových kmenových buněk pomocí průtokové cytometrie / Detection and clonogenic assay of cancer stem-like cells using flow cytometry Fedr, Radek January 2011 (has links) The Diploma Thesis deals with an implementation of the new method for an assessment of a cloning efficiency of the cancer stem cells separated by a high speed cell sorter. The cell-sowing on the microtitration plates was performed by the flow cytometry method in a combination with the high speed cell sorter. In the first part of the Diploma Thesis the new method was introduced and tested on the selected cell lines. The obtained results were compared with the results of the limiting dilution assay within four cell lines. As for the second part of my Diploma Thesis, the method was practically applied to analysis of the cloning capacity of two subpopulations of cE2 cells based on the expressions of characteristic markers of stem and cancer stem cells - CD44 and CD 133. Based on the findings, the new method can be introduced as an approved proceeding for the cloning capacity assessment of cancer stem cells in other workplaces that possess analogical device equipment.
53	Simulation of individual cells in flow Zhu, Lailai January 2014 (has links) In this thesis, simulations are performed to study the motion ofindividual cells in flow, focusing on the hydrodynamics of actively swimming cells likethe self-propelling microorganisms, and of passively advected objects like the red bloodcells. In particular, we develop numerical tools to address the locomotion ofmicroswimmers in viscoelastic fluids and complex geometries, as well as the motion ofdeformable capsules in micro-fluidic flows. For the active movement, the squirmer is used as our model microswimmer. The finiteelement method is employed to study the influence of the viscoelasticity of fluid on theperformance of locomotion. A boundary element method is implemented to study swimmingcells inside a tube. For the passive counterpart, the deformable capsule is chosen as the modelcell. An accelerated boundary integral method code is developed to solve thefluid-structure interaction, and a global spectral method is incorporated to handle theevolving cell surface and its corresponding membrane dynamics. We study the locomotion of a neutral squirmer with anemphasis on the change of swimming kinematics, energetics, and flowdisturbance from Newtonian to viscoelastic fluid. We also examine the dynamics of differentswimming gaits resulting in different patterns of polymer deformation, as well as theirinfluence on the swimming performance. We correlate the change of swimming speed withthe extensional viscosity and that of power consumption with the phase delay of viscoelasticfluids. Moreover, we utilise the boundary element method to simulate the swimming cells in astraight and torus-like bent tube, where the tube radius is a few times the cell radius. Weinvestigate the effect of tube confinement to the swimming speed and power consumption. Weanalyse the motions of squirmers with different gaits, which significantly affect thestability of the motion. Helical trajectories are produced for a neutralsquirmer swimming, in qualitative agreement with experimental observations, which can beexplained by hydrodynamic interactions alone. We perform simulations of a deformable capsule in micro-fluidic flows. We look atthe trajectory and deformation of a capsule through a channel/duct with a corner. Thevelocity of capsule displays an overshoot as passing around the corner, indicating apparentviscoelasticity induced by the interaction between the deformable membrane and viscousflow. A curved corner is found to deform the capsule less than the straight one. In addition, we propose a new cell sorting device based on the deformability of cells. Weintroduce carefully-designed geometric features into the flow to excite thehydrodynamic interactions between the cell and device. This interaction varies andclosely depends on the cell deformability, the resultant difference scatters the cellsonto different trajectories. Our high-fidelity computations show that the new strategy achievesa clear and robust separation of cells. We finally investigate the motion of capsule in awall-bounded oscillating shear flow, to understand the effect of physiological pulsation to thedeformation and lateral migration of cells. We observe the lateral migration velocity of a cellvaries non-monotonically with its deformability. / <p>QC 20140313</p> Hydrodynamic interaction swimming microorganisms capsule Stokes flow finite element method boundary integral method general geometry Ewald method spectral element method viscoelastic fluid cellular deformation flow cytometry cell sorting microrheology
54	Protein complementation assay as a display system for screening protein libraries in the intracellular environment Pow, Andrew James January 2008 (has links) A wide range of screening strategies have been employed to isolate antibodies and other proteins with specific attributes, including binding affinity, specificity, stability and improved expression. However, there remains no high-throughput system to screen for target-binding proteins in a mammalian, intracellular environment. Such a system would allow binding reagents to be isolated against intracellular clinical targets such as cell signalling proteins associated with tumour formation (p53, ras, cyclin E), proteins associated with neurodegenerative disorders (huntingtin, betaamyloid precursor protein), and various proteins crucial to viral replication (e.g. HIV-1 proteins such as Tat, Rev and Vif-1), which are difficult to screen by phage, ribosome or cell-surface display. This study used the â-lactamase protein complementation assay (PCA) as the display and selection component of a system for screening a protein library in the cytoplasm of HEK 293T cells. The colicin E7 (ColE7) and Immunity protein 7 (Imm7) Escherichia coli proteins were used as model interaction partners for developing the system. These proteins drove effective â-lactamase complementation, resulting in a signal-to-noise ratio (9:1 – 13:1) comparable to that of other â-lactamase PCAs described in the literature. The model Imm7-ColE7 interaction was then used to validate protocols for library screening. Single positive cells that harboured the Imm7 and ColE7 binding partners were identified and isolated using flow cytometric cell sorting in combination with the fluorescent â-lactamase substrate, CCF2/AM. A single-cell PCR was then used to amplify the Imm7 coding sequence directly from each sorted cell. With the screening system validated, it was then used to screen a protein library based the Imm7 scaffold against a proof-of-principle target. The wildtype Imm7 sequence, as well as mutants with wild-type residues in the ColE7- binding loop were enriched from the library after a single round of selection, which is consistent with other eukaryotic screening systems such as yeast and mammalian cell-surface display. In summary, this thesis describes a new technology for screening protein libraries in a mammalian, intracellular environment. This system has the potential to complement existing screening technologies by allowing access to intracellular proteins and expanding the range of targets available to the pharmaceutical industry.
55	Les cytokines inflammatoires modulent la prolifération et la différenciation in vitro des cellules souches/progénitrices de la moelle épinière Vaugeois, Alexandre 04 1900 (has links) No description available. Moelle épinière Traumatisme médullaire Cellules épendymaires Cellules souches neurales Neurosphères Neuro-inflammation Cytokines Spinal Cord Spinal cord injury Ependymal cells Neural stem cell Neurosphere Neuroinflammation Fluorescent activated cell sorting Cytometrie en flux
56	Développement et premières applications d'une méthode de tri de cellules bactériennes par marquage de l'ADN avec des nanoparticules magnétiques pour l'étude de la diversité bactérienne environnementale et des transferts horizontaux de gènes in situ / Development and first applications of a bacterial cell sorting method by labeling DNA with magnetic nanoparticles to study bacterial diversity and in situ horizontal gene transfer Pivetal, Jérémy 03 May 2013 (has links) En dépit de leur importance, la caractérisation des communautés bactériennes dans l’environnement reste encore très incomplète. Les principales raisons sont, d’une part, la difficulté d’appréhender la totalité de la communauté bactérienne quand plus de 99% des bactéries demeurent récalcitrantes à la culture in vitro et ne peuvent donc être étudiées par les approches classiques de microbiologie. D’autre part, la métagénomique, censée contourner cette méthode de culture en s’intéressant à l’ensemble des génomes extraits des milieux d’études, demeure elle aussi imparfaite du fait de limitations techniques (biais d’extraction de l'ADN, de clonage, de PCR, de séquençage et d’assemblage des génomes etc.) et conceptuelles, inhérentes à la complexité et l’hétérogénéité des environnements. Pour compenser les limites de chacune de ces techniques, des méthodes de tri cellulaire appliquées en conjonction avec les deux premières pourraient aider à un meilleur décryptage de la diversité microbienne. Basée sur la sélection spécifique (taxonomique et/ou fonctionnelle) et l’isolement direct des cellules bactériennes ciblées à partir d’un échantillon environnemental complexe, l’étude est restreinte à une population spécifique, voire à une cellule isolée. Pourront alors être appliquées les approches classiques de mise en culture ou d’extraction de l’ADN pour une étude restreinte à l’ADN ou l’ARN, leur répétition sur les différentes populations devant à terme (lointain) approcher l’exhaustivité. C’est dans ce contexte que s’est positionné ce travail de thèse visant dans un premier temps à mettre au point un nouvel outil de tri cellulaire basé sur l’intégration de micro-aimants permanents dans un canal microfluidique. A partir de ce système de tri magnétique miniaturisé, offrant de nombreux avantages (dispositif portable, peu coûteux, nécessitant de faibles volumes réactionnels et potentiellement intégrable en « laboratoire sur puce »), une technique d’isolement sélectif de cellules bactériennes marquées magnétiquement a alors été développée. Ciblées sur des critères taxonomiques après hybridation in situ avec des sondes d’acides nucléiques biotinylés complémentaires d’une région spécifique du gène 23S rRNA, des cellules bactériennes ont été marquées magnétiquement après réaction de la sonde avec des nanoparticules magnétiques fonctionnalisées par des molécules de streptavidine. Les premiers résultats montrent l’établissement d’une méthode de tri suffisamment spécifique et sensible pour piéger les cellules marquées diluées (0,04%) au sein d’une suspension, à des niveaux compatibles avec l’isolement futur de populations d’intérêt à partir de communautés d’environnements complexes. Sur un principe comparable, l’approche a été adaptée à l’étude des transferts horizontaux de gènes in situ. Les applications d’un tri cellulaire grâce au marquage par des nanoparticules magnétiques et l’emploi de micro-aimants intégrés dans des microsystèmes fluidiques semblent donc très prometteuses pour le développement de la microbiologie environnementale. / Despite their importance, bacterial communities in the environment remain poorly characterized. On the one hand, it is difficult to gain knowledge of the community as a whole because over 99% of bacteria are recalcitrant to in vitro culture, rendering classic microbiological approaches imposible to carry out. On the other hand, metagenomics, which can be used to circumvent culture-based approaches by extracting all the genomes from a given environment, is also problematic given the associated technical limitations (biases related to DNA extraction, cloning, PCR, genome sequencing and assembling etc.), and conceptual difficulties related to the complexity and the homogeneity of the environments. In order to overcome some of the limitations of these approaches, bacterial cell selection methods have been developed and can be used to improve our understanding of microbial diversity. Based on taxonomic and/or functional selection and the direct isolation of bacterial cells from an environmental sample, bacterial cell selection can be used to reduce microbial community complexity by targeting specific populations, or even an isolated cell. A variety of classic approaches such as cultivation or DNA/RNA extraction can then be carried out. This cycle can theoretically be repeated until all members of the community are characterized. The aim of this doctoral thesis was to design a novel cell selection tool based on the permanent integration of micro-magnets into a microfluidic canal. In conjunction with a new miniaturized magnetic selection system that provides several advantages over larger systems (portable, low cost, requiring smaller reaction volumes and can be potentially integrated on “laboratory on a chip” systems), a method for selective bacterial cell isolation using magnetic labeling was developed. The bacterial cells were targeted based on taxonomic criteria; biotin-labeled probes were developed for a specific region of the 23S rRNA gene. Following in situ hybridization with the probes, baceterial cells were labeled with streptavidin-functionalized magnetic nanoparticles. First results showed that the tool was specific and sensitive enough to trap labeled and diluted (0,04%) cells from a suspension at levels that are comparible to populations of interest found in complex environmental communities. This tool has also been adapted to study in situ horizontal gene transfer as well. The application of a cellular selection tool that labels targets with magnetic nanoparticles coupled to fluidic microsystems with integrated nano-magnets looks very promising for future studiesin environmental microbiology. Tri cellulaire magnétique Microsystème Hybridation magnétique in situ Nanoparticules magnétiques Transfert horizontal de gènes Génomique sur cellules isolées Magnetic cell sorting Microsystems Magnetic in situ hibrizidation Magnetic nanoparticles Horizontal gene transfer Single cell genomics
57	CellTrans: An R Package to Quantify Stochastic Cell State Transitions Buder, Thomas, Deutsch, Andreas, Seifert, Michael, Voss-Böhme, Anja 15 November 2017 (has links) (PDF) Many normal and cancerous cell lines exhibit a stable composition of cells in distinct states which can, e.g., be defined on the basis of cell surface markers. There is evidence that such an equilibrium is associated with stochastic transitions between distinct states. Quantifying these transitions has the potential to better understand cell lineage compositions. We introduce CellTrans, an R package to quantify stochastic cell state transitions from cell state proportion data from fluorescence-activated cell sorting and flow cytometry experiments. The R package is based on a mathematical model in which cell state alterations occur due to stochastic transitions between distinct cell states whose rates only depend on the current state of a cell. CellTrans is an automated tool for estimating the underlying transition probabilities from appropriately prepared data. We point out potential analytical challenges in the quantification of these cell transitions and explain how CellTrans handles them. The applicability of CellTrans is demonstrated on publicly available data on the evolution of cell state compositions in cancer cell lines. We show that CellTrans can be used to (1) infer the transition probabilities between different cell states, (2) predict cell line compositions at a certain time, (3) predict equilibrium cell state compositions, and (4) estimate the time needed to reach this equilibrium. We provide an implementation of CellTrans in R, freely available via GitHub (https://github.com/tbuder/CellTrans). Gleichgewichtszellzustandsanteile Zellzustandsübergänge Markov-Modell Durchflusszytometrie-Experimente Technische Universität Dresden Publikationsfonds Equilibrium cell state proportions cell state transitions Markov model flow cytometry experiments Technische Universität Dresden Publishing Fund ddc:570 rvk:WA 15000
58	Mechanical behavior and pore integration density optimization of switchable hydrogel composite membranes Ehrenhofer, Adrian, Hahn, Manfred, Hofmann, Martin, Wallmersperger, Thomas 19 March 2021 (has links) Switchable hydrogel-layered composite membranes can be used for the analysis of particle size distributions. This functionality is provided by pores with controllable diameter. In order to obtain a device that can be used to measure the cell size distribution in native biological samples, lots of switchable pores are required. In the current work, we model and simulate the mechanical behavior of active composite membranes with switchable pores. This is done in order to find the maximum number of pores that can be integrated into a membrane without cross-influencing effects on the actuation of the pores. Therefore, we investigate (1) the interaction of active pores inside the multifunctional composite and (2) the membrane bending under microfluidic pressure load. We show that through miniaturization, sufficient pores can be added to a permeation control membrane for processing native blood samples. The envisioned device allows a parallelized measurement of cell sizes in a simple lab-on-a-chip setup. info:eu-repo/classification/ddc/600 ddc:600 info:eu-repo/classification/ddc/670 ddc:670
59	Mechanical behavior and pore integration density optimization of switchable hydrogel composite membranes Ehrenhofer, Adrian, Hahn, Manfred, Hofmann, Martin, Wallmersperger, Thomas 11 August 2020 (has links) Switchable hydrogel-layered composite membranes can be used for the analysis of particle size distributions. This functionality is provided by pores with controllable diameter. In order to obtain a device that can be used to measure the cell size distribution in native biological samples, lots of switchable pores are required. In the current work, we model and simulate the mechanical behavior of active composite membranes with switchable pores. This is done in order to find the maximum number of pores that can be integrated into a membrane without cross-influencing effects on the actuation of the pores. Therefore, we investigate (1) the interaction of active pores inside the multifunctional composite and (2) the membrane bending under microfluidic pressure load. We show that through miniaturization, sufficient pores can be added to a permeation control membrane for processing native blood samples. The envisioned device allows a parallelized measurement of cell sizes in a simple lab-on-a-chip setup. info:eu-repo/classification/ddc/600 ddc:600 info:eu-repo/classification/ddc/670 ddc:670
60	Regenerationspotenzial CD133+-hämatopoetischer Progenitorzellen der humanen Nabelschnur beim Nierendefekt im Mausmodell / Regenerative potential of human umbilical cord blood derived CD133 positive hematopoietic progenitor cells after kidney injury in a mouse model Hoffschulte, Birgit 19 August 2009 (has links) No description available. 610 Medizin, Gesundheit Medicine Xenotransplantation Ischämie/Reperfusions-Modell HLA-Färbung Magnet-aktivierte Zellsortierung (MACS) Laser-Scanning-Zytometrie Laser-Mikrodissektion xenotransplantation ischemia/reperfusion model HLA staining magnetic activated cell sorting (MACS) laser scanning cytometry laser microdissection 44.03 44.88 MED 418: Nephrologie

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