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Genetic and Expression Analyses of the 'Nkrp1-Clr' Gene ClusterZhang, Qiang 19 September 2012 (has links)
Natural killer (NK) cells, lymphocytes of the innate immune system, can recognize a wide array of cells via several receptors families such as Ly49 and NKR-P1. The Nkrp1 gene family encode for C-type lectin-like receptors which can recognize their ligands, Clr, on target cells. Nkrp1 and Clr genes are intertwined in the NK gene complex and are thus inherited together. The Nkrp1-Clr genes in 129S6 and BALB/c mouse strains show significant sequence polymorphism compared to those of C57BL/6 mice while the overall gene organization and gene number are conserved. RT-PCR was utilized to study the expression of individual Nkrp1-Clr genes. In situ hybridization was performed to validate expression results from RT-PCR, as well as to verify the cell types in which Nkrp1-Clr genes are expressed. Surprisingly, our expression studies reveal an interesting pattern of expression of Nkrp1 and Clr genes not only in lymphoid tissues but also in the epithelial cells of the intestine, kidney, eye and lung, the myocytes of the heart and skeletal muscle, and possibly some endothelial cells, indicating novel functions of NK cells in these tissues.
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Genetic and Expression Analyses of the 'Nkrp1-Clr' Gene ClusterZhang, Qiang 19 September 2012 (has links)
Natural killer (NK) cells, lymphocytes of the innate immune system, can recognize a wide array of cells via several receptors families such as Ly49 and NKR-P1. The Nkrp1 gene family encode for C-type lectin-like receptors which can recognize their ligands, Clr, on target cells. Nkrp1 and Clr genes are intertwined in the NK gene complex and are thus inherited together. The Nkrp1-Clr genes in 129S6 and BALB/c mouse strains show significant sequence polymorphism compared to those of C57BL/6 mice while the overall gene organization and gene number are conserved. RT-PCR was utilized to study the expression of individual Nkrp1-Clr genes. In situ hybridization was performed to validate expression results from RT-PCR, as well as to verify the cell types in which Nkrp1-Clr genes are expressed. Surprisingly, our expression studies reveal an interesting pattern of expression of Nkrp1 and Clr genes not only in lymphoid tissues but also in the epithelial cells of the intestine, kidney, eye and lung, the myocytes of the heart and skeletal muscle, and possibly some endothelial cells, indicating novel functions of NK cells in these tissues.
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Genetic and Expression Analyses of the 'Nkrp1-Clr' Gene ClusterZhang, Qiang January 2012 (has links)
Natural killer (NK) cells, lymphocytes of the innate immune system, can recognize a wide array of cells via several receptors families such as Ly49 and NKR-P1. The Nkrp1 gene family encode for C-type lectin-like receptors which can recognize their ligands, Clr, on target cells. Nkrp1 and Clr genes are intertwined in the NK gene complex and are thus inherited together. The Nkrp1-Clr genes in 129S6 and BALB/c mouse strains show significant sequence polymorphism compared to those of C57BL/6 mice while the overall gene organization and gene number are conserved. RT-PCR was utilized to study the expression of individual Nkrp1-Clr genes. In situ hybridization was performed to validate expression results from RT-PCR, as well as to verify the cell types in which Nkrp1-Clr genes are expressed. Surprisingly, our expression studies reveal an interesting pattern of expression of Nkrp1 and Clr genes not only in lymphoid tissues but also in the epithelial cells of the intestine, kidney, eye and lung, the myocytes of the heart and skeletal muscle, and possibly some endothelial cells, indicating novel functions of NK cells in these tissues.
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Steps to the identification of the residue of the cultural heritage landscape of the University of Pretoria's Hatfield campus 1910-1960Dunstan, Neal Edward January 2016 (has links)
As the Campus Landscape Architect for the University of Pretoria, it has been an on-going challenge to gain an understanding and reliable data on the history of the landscape of the University of Pretoria's Hatfield campus. With the pace of development taking place on the campus, in order to meet the University's 2025 Strategic Vision, it became very clear that potential significant cultural landscapes on the Hatfield campus could be lost without ever knowing it. This is especially even more so when related to the South African Heritage Resources Act 25 of 1999 (SAHRA). The Getty Foundation's Campus Heritage Initiative's first grant for a conference in 2000 shared consensus that historic landscape preservation had a very low profile in much of American campus planning
The hypothesis states that the University of Pretoria's Hatfield Campus has an undiscovered cultural landscape history that not only could have value to the development of the University, but also to that of the surrounding precincts of the City. The thesis's aim is to record any sourced data pertaining to the cultural landscape of the University of Pretoria's Hatfield campus in order to contribute to the institutional repository, and to ascertain what, if any, cultural landscape values exist. A complex descriptive and historiographical interpretative research strategy was followed. A literature, policy and model study was conducted resulting in the main research tool being the U.S. Department of the Interior National Park Service's Cultural Landscape Report (CLR). The limitation to the thesis was Part 1: Site History, Existing Conditions, Analysis and Evaluation of the CLR to the University of Pretoria's Hatfield Campus for the period 1910 to 1960.
The study highlighted that the Hatfield Campus does contain tangible cultural landscape elements but very little is known or present of the intangible elements. The current political climate of the University places emphasis on equalising the cultural diversity on campuses, perhaps to the detriment of the existing cultural landscape, mainly by the naming and/or renaming of its buildings. A recommendation is that a Management and Preservation Plan encompassing both the architectural and landscape aspects be compiled to inform the future planning of the campus. / Dissertation (MLA)--University of Pretoria, 2016. / Architecture / MLA / Unrestricted
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Synthèse de néoglycoconjugués et dendrimères glycomimétiques utilisés pour le développement de puces à lectines de type C et leur validation / Synthesis of neoglycoconjugate and glycomimetic clusters used for CLR lectin array development and validationDidak, Blanka 14 November 2018 (has links)
Les lectines de type-C (CLR) sont des protéines de liaison au glycane qui reconnaissent les sucres de manière dépendante du Ca2+. Ils ont des rôles divers dans l'organisme humain. Ils sont responsables des interactions et de l'internalisation d'agents pathogènes tels que Candida albicans, Mycobacterium tuberculosis, le VIH ou le virus Ebola. Ils sont également impliqués dans le développement ou la prévention du cancer par la reconnaissance de glycanes spécifiques exprimés à la surface des cellules tumorales.L'importance cruciale est de trouver des ligands pour les CLR qui induiront une réponse immunitaire ou des inhibiteurs pour les lectines impliquées dans la promotion des infections dans l'organisme. L'objectif du réseau IMMUNOSHAPE était d'examiner de près les rôles, les spécificités et les différences entre les CLR et d'essayer de trouver des molécules appropriées pour stimuler la réponse immunitaire. Au cours de cette thèse, les néoglycoprotéines (NGP) contenant des glycodendrons de différentes valences ont été synthétisées. Pour la synthèse ont été utilisés BSA et OVA comme porteurs de protéines sur lesquels sont couplés des composés monovalents et des dendrons avec αMan et Manα1-2Man de trois et neuf valences. Tous les NGP ont été synthétisés par la chimie click avec deux équivalents de glycodendron / BSA. De plus, des NGP avec des glycomimétiques sur la base de fucose et de Manα1-2Man ont été préparés.L'affinité des molécules synthétisées a été analysée avec GLYcoPROFILE, la plateforme technologique développée par GLYcoDiag dans le but de mieux étudier les interactions glycobiologiques. Il a été évalué que tous les composés testés présentaient un effet multivalent fort sur quatre lectines spécifiques du mannose, y compris deux CLR : DC-SIGN et Langerin. La néoglycoprotéine avec 11 dendrons Manaαl-2 Man nonavalés a obtenu la meilleure avidité pour toutes les lectines testées. Les IC50 obtenues pour la Langerine et le DC-SIGN sont respectivement de l’ordre du nanomolaire et picomolaire, c’est une des valeurs les plus faibles obtenues pour ces deux lectines.L'étude des interactions glycobiologiques a été élargie par l'analyse des différences entre les glycanes avec les liaisons O, C et S et leurs interactions avec les lectines. Il a été observé que les C-glycanes n'ont pas le même mode de liaison que les O-glycanes et, par la suite, ne présentent pas le même effet multivalent attendu, que les O-glycanes. Dans le contexte des glycosides, nous montrons que l’O-glucoside présente de meilleures interactions avec les lectines purifiées que le S-glucoside, tandis que le S-galactoside offre une inhibition significativement meilleure entre les kératinocytes humains normaux et les néoglycoprotéines correspondantes. En outre, une étude intéressante a porté sur les interactions entre les thio-sialosides et la sialidase NanA. Cette analyse a montré que la multivalence a un effet important non seulement sur la lectine, mais également sur la liaison de l’enzyme. Les NGP synthétiques thio-sialylés ont mis en évidence un inhibiteur multivalent efficace de l'enzyme NanA.Au final, cette thèse présente des résultats intéressants sur l'influence significative des composés multivalents sur les interactions glycobiologiques entre les glycanes et les lectines ainsi que sur les enzymes. Cette connaissance pourrait être utilisée dans la conception future des vaccins et de leurs adjuvants pour le traitement des infections,du cancer et, en général, pour la formation de la réponse immunitaire. / C-type lectins (CLRs) are glycan binding proteins which recognize sugars in Ca2+ dependent manner. They have diverse roles in human organism. They are responsible for interactions and internalization of pathogens like Candida albicans, Mycobacterium tuberculosis, HIV or Ebola virus. They are also involved in development or prevention of cancer through recognition of specific glycans expressed on surface of tumor cells.The crucial importance is to find ligands for CLRs which will induce immune response or inhibitors for lectins which are involved in promotion of infections in organism. The goal of IMMUNOSHAPE network was to closely examine roles, specificities and differences between CLRs and try to find appropriate molecules for driving immune response. During this thesis, neoglycoproteins (NGPs) containing glycodendrons with different valences were synthetized. For synthesis were used BSA and OVA as protein carriers on which are coupled monovalent compounds and dendrons with αMan and Manα1-2Man in three and nine valences. All NGPs were synthetized with click chemistry with two ratios of glycodendron/BSA. Additionally, NGPs with glycomimetics on the basis of fucose and Manα1-2Man were prepared.The affinity of synthetized molecules was analyzed with GLYcoPROFILE, technology platform developed in GLYcoDiag with the aim of better and more precise investigation of glycobiological interactions. It was evaluated that all tested compounds showed strong multivalent effect on four mannose specific lectins, including two CLRs: DC-SIGN and Langerin. Neoglycoprotein with 11 nonavalent Manα1-2Man dendrons achieved the best avidity for all tested lectins. Obtained IC50 for Langerin and DC-SIGN are of nanomolar and picomolar range respectively, which are one of the lowest values obtained for these two lectins.Studying glycobiological interactions was expanded by analysis of differences between glycans with O-, C- and S-linkage and their interactions with lectins. It was observed that C-glycans does not have the same mode of binding like O-glycans and subsequently, do not show the same expected multivalent effect such as O-glycans. In the context of glycosides, we show that even O-glucoside achieved slithly better interactions with purified lectins in comparison with S-glucoside, S-galactoside provide significantly better inhibition between normal human keratinocytes and corresponding neoglycoproteins in comparison with O-galactoside. Furthermore, interesting study was investigation of interactions between thio-sialosides and sialidase NanA. This analysis showed that multivalency has a strong effect not only on lectin, but also on enzyme binding. Synthetized thio-sialylated NGPs showed as efficient, multivalent inhibitor of NanA enzyme.Altogether, this thesis presents interesting results of significant influence of multivalent compounds on glycobiological interactions between glycans and lectins as well as enzymes. This knowledge could be used in future design of vaccines and their adjuvants for infection and cancer treatment and in general, for shaping immune response.
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Redescribing Agency through Sport and Ritual: Considering an Alternative ApproachHarsh, Bethanie 15 July 2011 (has links)
This project exposes the problems with the dominant conception of agency in secular liberal discourse. The main critique is that the dominant conception of agency tends to attribute value to certain aspects of action that are not necessarily the most telling or valuable in terms of what constitutes agency. I use Saba Mahmood’s Politics of Piety to aid in this critique. Her project uses the Muslim rituals performed by women of the mosque movement in Egypt to demonstrate the need for a more nuanced conception of agency in academics. I use CLR James’ Beyond a Boundary to support the approach offered by Mahmood and demonstrate the applicability of such an approach outside of typical considerations of “ritual”. In this case, the approach is applied to cricket.
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Elucidation of the Role of NKR‐P1: CLR Recognition Systems in Intestinal & Renal Epithelial Cell Homeostasis and ImmunityAbou Samra, Elias January 2017 (has links)
Natural killer (NK) cells represent a crucial component of the innate immune system and are primarily regulated by the interactions of their activation and inhibitory receptors with ligands available on target cells. The genetically linked Ly49 and NKR-P1 family of receptors constitute two of the major regulatory receptor systems used by NK cells and have been shown to bind different ligands. Whereas the Ly49 receptors survey MHC-I ligands on target cells, the NKR-Pl receptor family members bind to various members of the C-type lectin-related (Clr) family. Interestingly, NKR-P1 and Clr haplotypes possess a stable genomic polymorphism across multiple mouse strains, suggesting that this inhibitory receptor:ligand relationship has an important role in the maintenance of host cellular cognate specificities. The NKR-P1 and Clr receptor-ligand pairs identified in mice include the NKR-P1B:Clr-b and the NKR-P1G:Clr-f interacting pairs. Previous RT-PCR and in situ RNA hybridization data generated by our laboratory determined that kidney tubular epithelium as well as the small and large intestinal epithelial cells specifically and highly expresses the Clr-f transcripts. Contrarily, the Clr-b transcripts were only detected on hematopoietic cells of various lymphoid organs and kidneys. Moreover, foregoing studies revealed that the loss of Clr-b following viral or chemical induced stress mediates NK cell killing of the target cell, suggesting a tissue-specific immune-surveillance mechanism in parallel with the global MHC-I-dependent missing-self model. However, the role of the NKR-P1B:Clr-b recognition-system have never been examined in the intestine. Additionally, the role of Clr-f in the kidney and intestines, where they are highly expressed, has not been investigated. For these reasons, I aimed in my thesis to provide a better understanding of the functional aspect of the NKR-P1B:Clr-b and NKR-P1G:Clr-f recognition systems in mediating gut mucosal and renal homeostasis, respectively.
First, in order to determine the role of NKR-P1B and Clrb receptor:ligand pair as a “missing-self” immunosurveillance system in the gut, I started by identifying the expression pattern of both the receptor and ligand on various intestinal cells. My results demonstrate that NK cells do not represent the major NKR-P1B-expressing cells in the gut lamina propria. Instead, ILC3 subsets constituted the predominant cell population expressing the receptor, whereas γδT cells composed a small fraction of NKR-P1B+ lymphocytes. In addition, the NKR-P1B expression on myeloid cells was exclusive to colon macrophages and DC subsets. Interestingly, the highest percentage of NKR-P1B+ immune cells was found in the gut, which suggests the dominant role of NKR-P1B in regulating immune functions at the level of intestinal mucosa. As expected, the expression of the NKR-P1B ligand, Clr-b, appeared on all innate immune cell types in the gut. Next, using oral infection models of Salmonela typhimurium and Citrobacter rodentium, I showed that NKR-P1B-deficient NK cells, ILC3 and γδ T cells are hyporesponsive compared to their WT counterparts. In particular, gut NKR-P1B-deficient NK cells and γδT cells secreted low levels of IFNγ cytokine while infected with S.typhimurium. Importantly, the decreased IFNγ secretion by NK and γδT cells was associated with an increased dissemination of the bacterium into the knockout spleens at day 5 post-infection. Likewise, I detected a significant decrease in IL-22 cytokine production by NKR-P1B-deficient ILC3 compared to their WT counterparts at both steady state and following C.rodentium infection.
Next, I address the potential role of Clr-f in the kidney. Renal tubular epithelial cells have been shown to express high levels of Clr-f transcripts. Epithelial cells constitute the major cellular component of kidney tubules and are well known to mediate metabolic waste excretion, reabsorption of essential molecules as well as other physiological functions, such as ions exchange and water retention. To determine the role of Clr-f in renal epithelial cells, I generated a Clr-f-deficient mouse with the help of two of my previous lab colleagues. Importantly, chemical analysis on urine and serum samples from knockout and WT littermates indicated that Clr-f-deficient kidneys display a decreased filtration capacity. In particular, higher creatinine levels were detected in the Clr-f deficient serum. In addition, Clr-f-deficient mice appeared to have a lower fractional excretion of sodium (FENa) in their urine filtrates in comparison to WT excreted urine. Blood pressure measurements on the same mice at 12 and 24 weeks of age revealed a hypotensive phenotype in the Clr-f-deficient mice. Furthermore, pathological assessment of Clr-f-deficient kidneys exhibited moderate and aggravated lesions of the tubular epithelium along with marked glomerular mesangiolysis. Lastly, flow cytometry analysis on isolated lymphocytes from Clr-f-deficient and WT mice demonstrated comparable immune infiltrates between the two mouse genotypes.
Altogether, our data shows that the absence of Clr-f results in the development of glomerular and tubular lesions in an immune-independent manner leading to an abnormal kidney function. Additionally, the disruption of NKR-P1B:Clr-b recognition system results in abnormal innate immune cell number and function in the mouse intestine. These novel findings sheds light on the important role of Clr-f in maintaining healthy kidney morphology and function, as well as the crucial role for NKR-P1B:Clr-b interactions in mediating intestinal homeostasis at steady and infected states.
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Studium interakce lektinových receptorů přirozených zabíječů s jejich proteinovými ligandy. / Studies on interactions between natural killer cell lectin receptors and their protein ligands.Hernychová, Lucie January 2014 (has links)
NK cells are innate lymphocytes which constitute the first line of organism's defence against infections through their receptor system. These cells represent an important part of antiviral and antitumor immunity, they also play a role in transplant immunity, autoimmunity and reproduction. This diploma thesis inquires into the structure of the transmembrane receptor NKR-P1B of mouse NK cells and the interaction with its ligand Clr-b. The aim was to prepare the expression vector coding the ligand-binding and whole extracellular region of the receptor NKR-P1B and to optimize its production and refolding in vitro. Purified protein samples were analyzed by size-exclusion chromatography, electrophoresis and mass spectrometry. Interaction between NKR-P1B and Clr-b proteins was tested using biophysical (size-exclusion chromatography and surface plasmon resonance) and biological methods (labelling of cellular sample with NKR-P1B proteins marked with fluorescent dye). In vitro binding experiments have not confirmed mutual interaction between NKR-P1B and Clr-b despite the prepared proteins binding to the bone marrow cells.
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Porting DotGNU to Embedded LinuxStein, Alexander 29 March 2011 (has links) (PDF)
Programming PLC systems is limited by the provided libraries. In contrary, hardware-near programming needs bigger efforts in e. g. initializing the hardware. This work others a foundation to combine advantages of both development sides. Therefore, Portable.NET from the DotGNU project has been used, which is an implementation of CLI, better known as “.NET”. The target system is the PLCcore-5484 microcontroller board, developed by SYS TEC electronic GmbH. Built upon the porting, two variants to use interrupt routines withing the Portabe.NET runtime environment have been analyzed. Finally, the reaction times to occuring interrupt events have been examined and compared. / Die Programmierung für SPS-Systeme ist durch die gegebenen Bibliotheken beschränkt, während hardwarenahe Programmierung einen größeren Aufwand durch z.B. Initialisierungen hat. Diese Arbeit bietet eine Grundlage, um die Vorteile beider Entwicklungsseiten zu kombinieren. Dafür wurde Portable.NET des DotGNU-Projekts, eine Implementierung des CLI, bekannter unter dem Namen “.NET”, benutzt. Das Zielsystem ist das PLCcore-5484 Mikrocontrollerboard der SYS TEC electronic GmbH. Aufbauend auf der Portierung wurden zwei Varianten zur Einbindung von Interrupt-Routinen in die Portable.NET Laufzeitumgebung untersucht. Abschließend wurden die Reaktionszeiten zu eintretenden Interrupts analysiert und verglichen.
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Automatické generování UML diagramu tříd / Automated UML Class Diagrams GenerationBrázdil, Martin January 2015 (has links)
This master's thesis describes the analysis, design and implementation of an application for automatic generation of UML class diagram. Application is designed as a web service, which provides remote access, especially permanent actuality of generated class diagram. Input of the service is a compiled application written for C# .NET or Java platform. The reader is acquainted with basics of reverse engineering of mentioned platforms and with structure of UML class diagram. Then are these knowledge applied in design and implementation of the service. The main goal is to facilitate and accelerate the activities of software development team members.
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