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Malaria Over-Diagnosis in Cameroon: Diagnostic Accuracy of Fluorescence and Staining Technologies (FAST) Malaria Stain and LED Microscopy Versus Giemsa and Bright Field Microscopy Validated by Polymerase Chain ReactionParsel, Sean M., Gustafson, Steven A., Friedlander, Edward, Shnyra, Alexander A., Adegbulu, Aderosoye J., Liu, Ying, Parrish, Nicole M., Jamal, Syed, Lofthus, Eve, Ayuk, Leo, Awasom, Charles, Henry, Carolyn J., McArthur, Carole P. 04 April 2017 (has links)
Background: Malaria is a major world health issue and its continued burden is due, in part, to difficulties in the diagnosis of the illness. The World Health Organization recommends confirmatory testing using microscopy-based techniques or rapid diagnostic tests (RDT) for all cases of suspected malaria. In regions where Plasmodium species are indigenous, there are multiple etiologies of fever leading to misdiagnoses, especially in populations where HIV is prevalent and children. To determine the frequency of malaria infection in febrile patients over an 8-month period at the Regional Hospital in Bamenda, Cameroon, we evaluated the clinical efficacy of the Flourescence and Staining Technology (FAST) Malaria stain and ParaLens AdvanceTM microscopy system (FM) and compared it with conventional bright field microscopy and Giemsa stain (GS). Methods: Peripheral blood samples from 522 patients with a clinical diagnosis of "suspected malaria" were evaluated using GS and FM methods. A nested PCR assay was the gold standard to compare the two methods. PCR positivity, sensitivity, specificity, positive predictive value (PPV), and negative predictive value (NPV) were determined. Results: Four hundred ninety nine samples were included in the final analysis. Of these, 30 were positive via PCR (6.01%) with a mean PPV of 19.62% and 27.99% for GS and FM, respectively. The mean NPV was 95.01% and 95.28% for GS and FM, respectively. Sensitivity was 26.67% in both groups and specificity was 92.78% and 96.21% for GS and FM, respectively. An increased level of diagnostic discrepancy was observed between technicians based upon skill level using GS, which was not seen with FM. Conclusions: The frequency of malarial infections confirmed via PCR among patients presenting with fever and other symptoms of malaria was dramatically lower than that anticipated based upon physicians' clinical suspicions. A correlation between technician skill and accuracy of malaria diagnosis using GS was observed that was less pronounced using FM. Additionally, FM increased the specificity and improved the PPV, suggesting this relatively low cost approach could be useful in resource-limited environments. Anecdotally, physicians were reluctant to not treat all patients symptomatically before results were known and in spite of a negative microscopic diagnosis, highlighting the need for further physician education to avoid this practice of overtreatment. A larger study in an area with a known high prevalence is being planned to compare the two microscopy methods against available RDTs.
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On Protein Recruitment Dynamics in Clathrin-Mediated Endocytosis and its Relation to Membrane TensionHuber, Scott David 04 September 2019 (has links)
No description available.
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Distribution of Cellular Interferon Beta (IFN-β) in Murine Fibroblast Cell Lines Upon Infection of HSV-1Curtis, Rachael E. 14 December 2011 (has links)
No description available.
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Real-time feedback control of gene expressionUhlendorf, Jannis 19 April 2013 (has links) (PDF)
L'expression génétique est un processus cellulaire fondamental réglé de manière ne. Les promoteurs inducibles perme ent de perturber l'expression génétique en changeant l'expression d'une protéine par rapport à son niveau physiologique de référence. Ce e propriété en fait un outil incontournable pour décrypter le fonctionnement des processus biologiques via la comparaison du comportement de la cellule sous divers niveaux d'induction. Toutefois, une limite actuelle à l'utilisation des promoteurs inducibles provient de la difficulté à appliquer des perturbations précises et dynamiques. Les deux obstacles principaux étant: (i) la variabilité intercellulaire ainsi qu'à la nature aléatoire de l'expression génétique qui limite la précision de la perturbation appliquée. (ii) la difficulté à prèdire quantitativement le comporteement des systèmes biologiques sur les longues periodes requises pour des objectifs d'expression variables dans le temps. Or des perturbations précises et changeant dans le temps perme ent d'obtenir de riches informations sur la dynamique d'un système biologique. Est présenté ici une plate-forme de contrôle temps réel en boucle fermée qui permet le contrôle quantitatif sur une longue durée de l'expression génétique chez la levure. Ce e plateforme utilise la microscopie par uorescence pour suivre l'expression génétique, un système micro uidique pour interagir avec l'environnement cellulaire ainsi qu'un logiciel perme ant l'analyse d'image en temps réel et le calcul de la stratégie de contrôle à appliquer. Ce système permet le contrôle de l'expression d'un gène chez la levure, tant au niveau d'un population cellulaire qu'au niveau de la cellule seule et ceci pour un objectif d'expression constant ou dépendant du temps. Le système de réponse au chocs hyper-osmotiques de la levure S. cerevisiae (HOG pathway) a été utilisé pourin uencer l'expression génétique. Toutefois, la possibilité d'utiliser un autre système d'induction sans profondes modi cations de la plate-forme est démontrée. De surcroît au développement de ce e plate-forme est également ici démontré la possibilité de contrôler le système HOG. A n de comprendre la dynamique cellulaire et de pouvoir la quanti er, il est nécessaire de pouvoir appliquer des perturbations précises. La plate-forme de contrôle de l'expression génétique présentée ici permet de perturber avec précision le niveau d'expression d'une protéine et représente donc une contribution majeure dans ce e direction.
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Analysis of surface coverage in regards to surface functionalization : A microscopic approachLeppälä, Daniel January 2017 (has links)
The understanding of how white blood cells react when coming into contact with various surfaces is of major importance for a wide range of biomaterials and biosensor applications. In this study it is investigated if it is possible to determine how neutrophils react to a certain type of sensor chip called cell clinic being developed. This study investigates the cell surface coverage on the sensor chip and how it correlates to the signal response of the sensor at hand. Neutrophils, as other white blood cells, are cells that quickly adhere to surfaces and during the adhesion process they activate at different levels depending on i.e. type of surface or surface functionalization, this activation can be visualized by the change in morphology. While measuring the change of capacitance with the cell clinic sensor during cell adhesion, the cell surface coverage is of main importance. The main focus of this diploma work has been to develop an image analysis script capable of conducting automated analysis on a large body of images estimating the surface coverage. Input data for this modeling is taken from fluorescent microscopy images. The experiments conducted during this project have indicated that white blood cells adhered to the sensor surface shows signs of being activated also without external activation. This clearly shows that knowledge of how neutrophils react to surface modifications is of great importance as well as the awareness that any surface may trigger a response from the immune system i.e. neutrophil activation, so also in the cell clinic. It is a fact that it might be difficult to evaluate the effect of a foreign substance on the neutrophils while a significant amount is activated from being in contact with the surface. Regarding different surfaces the white blood cells does not display any preference of adhering to any specific surface. The surfaces used in this project was silicon oxide wafers, silicon oxide wafers with a nitride surface functionalization and the intended sensor chip; however the addition of PMA clearly shows an effect on how many cells that adheres to the surface as well as the average area of each cell.
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Struktura a dynamika myších inhibičních receptorů podobných lektinům C-typu / Structure and dynamics of mouse C-type lectin-like receptors.Wallenfels, Lucie January 2019 (has links)
Natural killer (NK) cells represent indispensable part of the innate immunity as they are capable of promptly identifying virally infected or tumor cells and participating in the regulation of adaptive immune responses. These functions are ensured by the interplay between NK receptors, creating a complex regulatory system. Solving the receptors' structure may contribute to an overall understanding of NK cell biology. Presented thesis describes an elucidation of the structure of the inhibitory C-type lectin-like receptor (CTLR) Nkrp1b with an emphasis toward structural features (stalk, loop and oligomerization state) which might affect conformation or interactions of this receptor. The interaction of Nkrp1b with its ligand, Clr-b protein, is immunologically significant as it regulates NK cells' activity independently and monitors changes that are not visible to cytotoxic T lymphocytes. To study individual structural aspects of Nkrp1b, two protein variants were recombinantly prepared in bacterial expression system: entire ectodomain and ligand-binding domain lacking the stalk. Using a range of mass spectrometric techniques in combination with homology modeling and molecular dynamics, we proposed the Nkrp1b structure including its monomeric and dimeric arrangements. In addition, the oligomerization...
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Analysis of Stiffness Measurement Methods on Extracellular Vesicles / Analys av Styvhetsmätmetoder för Extracellulära VesiklarKylhammar, Hanna January 2022 (has links)
Extracellular vesicles are important players in cell-to-cell communication and have the potential to be used as biomarkers for decease. The mechanical properties of extracellular vesicles is an active field of research, with new methods and models being developed. In this thesis, two samples of extracellular vesicles containing different levels of membrane protein expressions are investigated using atomic force microscopy. Three models for determining stiffness are applied to the samples: the Hertz model, an adhesion angle dependent model, and the modified Canham-Helfrich model. The Hertz model indicated a higher Young’s Modulus for vesicles without membrane proteins, but with large errors. The adhesion angle dependent model did not provide high enough sensitivity to determine any difference in stiffness between the two samples. The modified Canham-Helfrich model indicated a higher bending modulus for the vesicles with membrane proteins. The results highlight the importance of taking several measurements on each vesicle, in contrast to how the method is currently applied in research. / Extracellulära vesiklar är essentiella komponenter inom cell-till-cell-kommunikation, och har potentialen att kunna användas som sjukdomsmarkörer. Extracellulära vesiklars mekaniska egenskaper är ett aktivt forskningsfält där nya experimentella metoder och teoretiska modeller är under utveckling. I den här arbetet används atomkraftsmikroskopi för att undersöka de mekaniska egenskaperna av två prover av extracellulära vesiklar med olika mängd membranproteiner. Tre modeller för att utvärdera deras styvhet tillämpas: Hertz-modellen, en adhesionsvinkelberoende modell, och den modifierade Canham-Helfrichmodellen. Hertz-modellen indikerade högre elasticitetsmodul för provet med lägre antal membranprotein, men med stora fel i mätningarna. Den adhesionsvinkelbaserade modellen var inte känslig nog att påvisa några skillnader i styvhet mellan proverna. Den modifierade Canham-Helfrich-modellen indikerade att vesiklarna med membranprotein har högre böjmodul än veiklarna utan membranprotein. Resultaten understryker att det är viktigt att göra flertalet mätningar på varje vesikel, i kontrast mot hur modellen tillämpas i dagsläget.
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3D Cryo-Imaging System For Whole MouseRoy, Debashish 29 December 2009 (has links)
No description available.
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Trade-offs in CRISPR Immunity against Mobile Genetic ElementsCederblad, Johanna January 2022 (has links)
The prokaryotic adaptive immune system CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) is a defense mechanism that helps to protect the prokaryotic cell from invading mobile genetic elements. This project was performed at Uppsala University and served to answer whether the expression of Cascade, which is part of the CRISPR defense system, will have a negative effect on the cell that expresses it and to also determine whether the CRISPR defense system is effective enough to stop the spread of a conjugative plasmid. A microfluidic system was used in order to perform the experiments and images were taken with the help of fluorescent microscopy. Three different donor strains from E.coli were used. These strains had their own version of the RP4 conjugative plasmid which had the ability to infect recipient E.coli cells with said plasmid. The recipient cells had the ability to express the CRISPR system in order to defend themselves from the plasmid and CRISPR was also inducible with the help of IPTG. The different versions of the RP4 conjugative plasmid had different amounts of spacer targets that Cascade, the recognition complex in the CRISPR system, could recognize. When the recipient cells were induced and had a known target sequence of the plasmid they were able to defend themselves and keep the number of transconjugant cells low. When the recipient cells did not know the target the amount of transconjugant cells were higher. It was also noted that when the cells were induced inside the microfluidic PDMS chip they had a slower generation time. It was also noted that recipient cells had begun to die towards the end of the microfluidic experiments when the cells were induced. This raised the question as to whether the CRISPR defense system was targeting itself as well as the RP4 conjugative plasmid.
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Quantitative Studies of Intracellular Trafficking of Two Classes of Resident Golgi Apparatus ProteinsStarr, Tregei Nicole 04 May 2006 (has links)
The research presented in this dissertation consists of two primary parts. The initial focus centered on understanding the distribution of Golgi resident glycosyltransferases between the ER and Golgi at steady-state. Retrograde trafficking of these Golgi proteins has been demonstrated experimentally mandating the existence of a dynamic equilibrium between the Golgi apparatus and ER. Our published studies also included the development of a quantitative method for analysis of data collected using fluorescent microscopy. The second part of this dissertation presents results pertaining to the quantification of a unique Golgi resident protein that cycles in the late endosome bypass pathway. Using the published method of analysis and techniques developed during the initial project, the anterograde and retrograde transport kinetics of this Golgi protein were determined and used to develop a compartmental model for pH sensitive trafficking in the bypass pathway. The spatial Golgi distribution of the protein during retrograde transport to the Golgi following endosomal exit was also investigated. This research lies at the interface of experimental cell biology and quantitative computational analysis. These experiments combined more traditional experimental biological approaches with more recent computational approaches to understanding cellular mechanisms. Additionally, development of a quantitative method of analysis validated the use of fluorescent microscopy as a quantitative tool for studying intracellular proteins. / Ph. D.
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