Global ETD Search

281	Diagnostische Liquorparameter der sporadischen Creutzfeldt-Jakob-Erkrankung und häufiger Differentialdiagnosen / Diagnostic CSF-parameter in sporadic CJD and and common differential diagnoses Kühmel, Torsten 14 May 2013 (has links) No description available. 610 CJD 14-3-3 Tau
282	Pathophysiological Characterization of intra‐ and extracellularly aggregated Amyloid Peptides in Dementias Saul, Anika 25 June 2013 (has links) No description available. 570 Amyloid Alzheimer Familial British Dementia Familial Danish Dementia ApoE Tau Mouse Model Biologie (PPN619462639)
283	Accessing the kinetics of the supra-tauc range via relaxation dispersion NMR spectroscopy Ban, David 12 August 2013 (has links) No description available. 570 NMR spectroscopy Relaxation Dispersion Protein Dynamics ubiquitin supra tau-c Biologie (PPN619462639)
284	La sécrétion de la protéine Tau : nouveau mécanisme de propagation de la pathologie de Tau dans la maladie d'Alzheimer Plouffe, Vanessa 12 1900 (has links) Tau est une protéine associée aux microtubules enrichie dans l’axone. Dans la maladie d’Alzheimer, Tau devient anormalement hyperphosphorylée, s’accumule dans le compartiment somato-dendritique et s’agrège pour former des enchevêtrements neurofibrillaires (NFTs). Ces NFTs se propagent dans le cerveau dans un ordre bien précis. Ils apparaissent d’abord dans le cortex transenthorinal pour ensuite se propager là où ces neurones projettent, c’est-à-dire au cortex entorhinal. Les NFTs s’étendent ensuite à l’hippocampe puis à différentes régions du cortex et néocortex. De plus, des études récentes ont démontré que la protéine Tau peut être sécrétée par des lignées neuronales et que lorsqu’on injecte des agrégats de Tau dans un cerveau de souris, ceux-ci peuvent pénétrer dans les neurones et induire la pathologie de Tau dans le cerveau. Ces observations ont mené à l’hypothèse que la protéine Tau pathologique pourrait être sécrétée par les neurones, pour ensuite être endocytée par les cellules avoisinantes et ainsi propager la maladie. L’objectif de la présente étude était donc de prouver la sécrétion de la protéine Tau par les neurones et d’identifier par quelle voie elle est secrétée. Nos résultats ont permis de démontrer que la protéine Tau est sécrétée par des neurones corticaux de souris de type sauvage ainsi que dans un modèle de surexpression dans des cellules HeLa et PC12. Nos résultats indiquent que la sécrétion de Tau se ferait par les autophagosomes. Finalement, nous avons démontré que la protéine Tau sécrétée est déphosphorylée et clivée par rapport à la protéine Tau intracellulaire non sécrétée. / Tau, a microtubule-associated protein, is enriched in the axon. In Alzheimer’s disease, Tau becomes hyperphosphorylated, redistributes to the somato-dendritic compartment and forms aggregates called neurofibrillary tangles (NFTs). The NFTs propagates in a predictable manner in particular neuronal networks. Indeed, they appear in the trans-entorhinal region and then propagate to the entorhinal cortex where the trans-entorhinal cortex projects. Then, the NFTs propagate to the hippocampus and to different regions of the cortex and neocortex. Recent studies have reported that Tau can be secreted by neuronal cell lines. Besides, when aggregates of Tau protein were injected in mouse brain, they could enter neurons and induced Tau pathology. Based on those observations, it was speculated that Tau could be secreted by neurons and then captured by neighbouring cells to propagate Tau pathology in the brain. The goal of the present study was to prove that Tau can be secreted by neurons and to find the secretory pathway involved in Tau secretion. Moreover, the phosphorylation state of Tau protein was examined and compared to intracellular non-secreted Tau. Our results showed that Tau is secreted by cortical neurons isolated from wild-type mice and by HeLa and PC12 cells overexpressing human Tau. Our results also indicated that autophagosomes would be involved in Tau secretion. Finally, we found that secreted Tau was dephosphorylated and cleaved compared to the non-secreted intracellular Tau. Tau Alzheimer Sécrétion Phosphorylation Autophagie Exosomes Tauopathies Secretion Autophagy
285	LEPTIN RESISTANCE INDUCED OBESITY AND DIABETES PROMOTE NEUROPATHOLOGICAL CHANGES IN THE AGING BRAIN Platt, Thomas 01 January 2014 (has links) The aging brain is prone to the development of pathology and dementia. With a rapidly growing elderly population diagnoses of neurodegenerative diseases, such as Alzheimer’s disease (AD), frontotemporal dementia (FTD), and Parkinson’s disease are on the rise. Additionally, diabetes and obesity are linked to an increased risk of dementia. The convergence of this increasingly aged population with the obesity and diabetes epidemic give rise to new concerns regarding the future of prevention and treatment of neurodegenerative diseases. Our lab has previously shown that leptin, an adipokine involved in signaling satiety to the hypothalamus, can modulate the generation of the amyloid beta (Aβ) peptide (a toxic peptide associated with neurologic disease) and attenuate hyperphosphorylation of the tau protein (another peptide prone to forming large insoluble structures causing neurodegeneration). From these studies we have elucidated that leptin resistant mice (which develop severe obesity and type-2 diabetes mellitus) with knock-in mutations for the amyloid precursor protein (APP) and presenilin-1 (PS1) genes develop extensive vascular pathology and cognitive impairments. Interestingly, these mice do not display increased levels of amyloid deposition in the brain. Additionally, increased tau phosphorylation occurs in these mice with leptin resistance. As a follow up to this study db mice were transduced, via adeno-associated virus, with the tau P301L mutant to induce the development of tangle pathology. These mice displayed no cognitive deficits, yet they displayed increases in both tau phosphorylation and tangle count within the hippocampus. Collectively, these studies indicate leptin resistance, obesity, and type-2 diabetes mellitus promote the development of cerebrovascular and neurofibrillary tangle pathologies associated with neurodegeneration and dementia. These observations open many previously unexplored avenues for developing novel therapeutics to treat these devastating diseases. Alzheimer's disease diabetes leptin obesity stroke Tau Neurofibrillary Tangles Biochemistry Neuroscience and Neurobiology
286	Über die Interaktionen des zellulären Prion-Proteins (PrPc) mit relevanten Proteinen der Alzheimer Erkrankung / The interaktion of the cellular prion protein (PrPc) with relevant proteins of Alzheimer's disease Maibach-Wulf, Katharina 15 July 2014 (has links) No description available. 610 Medizin (PPN619874732)
287	A measurement of the branching fraction of the decays of the tau- lepton to 2pi- pi+ eta nu King, Gregory 24 October 2007 (has links) We investigate the decay mode τ − → π − π + π − ηντ , where the η subsequently decays to π + π − π 0 using 232 fb−1 data acquired by the BABAR detector. The branching fraction of τ − → π − π + π − ηντ is found to be (1.88 ± 0.14 ± 0.11) × 10−4 . The first error on the is measurement is purely statistical and the second error is estimated systematic error. This measurement is consistent with the prior experimental mesaurements at CLEO and BABAR. Particle Physics tau lepton branching fraction
288	Search for new spin-0 particles near π⁰ mass produced in association with τ pairs at BABAR Beaulieu, Alexandre 29 August 2013 (has links) This research project searches for new physics in the τ sector that would resolve the tension between BABAR measurement for the pion-photon transition form factor Fπ0(Q^2)and the standard model asymptotic prediction. This behaviour could be explained by a new light pseudo-scalar state that mixes with the π 0 and enhances its coupling to the c and b quarks or the τ lepton, or by a new spin-0 particle with mass very close to the π 0 . We examine one channel to test for existence of such objects: their creation in association with τ pairs in e+ e− collisions. The analysis uses a typical cut-based approach as the large predicted cross-sections and the kinematics of the ﬁnal states allow for a direct selection of signal events and background suppression. Current simulation studies predict a 90% CL limit on the production cross-section on the order of 100 fb in case of no signal, while the theory predicts production cross-sections on the order of 1 pb to 100 pb depending on the model. / Graduate / 0798 / beaa@uvic.ca Experimental particle physics Tau lepton Pion-photon transition form factor New interactions BaBar experiment
289	Search for Lepton Universality Violation Using Υ (3S) Decays King, Gregory 23 December 2014 (has links) The measurement of the ratio of the branching fractions of Υ (3S) decays into τ leptons over dimuons (R τ /μ = B(Υ (3S) → τ + τ − )/B(Υ (3S) → μ + μ − )) is a test of lepton universality. A violation of lepton universality would be evidence of new physics (and possibly of a light CP-odd Higgs boson). A sample of Υ (3S) decays (2.408 fb −1 ) collected with the B A B AR detector at the SLAC National Accelerator Laboratory was used to determine that the ratio R τ /μ is R τ /μ = 1.0385 ± 0.034 ± 0.019. Using the remaining blinded data sample (corresponding to an integrated luminosity of 25.6 fb −1 ) the estimated statistical sensitivity will be 1.1 % and the estimated systematic uncertainty of R τ /μ is 1.9 %. Prior to this work, previous measurements of R τ /μ had an estimated total precision of 10 %. / Graduate lepton universality high energy physics BaBar Collaboration tau lepton muon cross section
290	Proximity Ligation Assay for High Performance Protein Analysis in Medicine Gu, Gucci Jijuan January 2012 (has links) High quality reagents are preconditions for high performance protein analyses. But despite progress in some techniques, e.g. mass spectrometry, there is still a lack of affinity-based detection techniques with enhanced precision, specificity, and sensitivity. Building on the concept of multiple affinity recognition reactions and signal amplification, a proximity ligation assay (PLA) was developed as a molecular tool for analyzing proteins and their post-translational modification and interactions. PLA enhanced the analysis of protein expression levels and post-translational modifications in western blotting (Paper I), which had elevated sensitivity and specificity, and an ability to investigate protein phosphorylation. A general and straightforward method was established for the functionalization of affinity reagents through adding DNA strands to protein domains for protein analysis in medicine (Paper II). A method for protein domain-mediated conjugation was developed to simplify the use of recombinant affinity reagents, such as designed ankyrin repeat protein (DARPin), in DNA-mediated protein analyses. Alzheimer’s disease (AD) is characterized by progressive cognitive decline and memory impairment, and amyloid-beta plaques and neurofibrillary tangles (NFT) in the brain are clinical hallmarks of the disease. In order to understand the mechanisms underlying the formation of NFT, in situ PLA was used to explore the role of microtubule affinity related kinase 2 (MARK2) in phosphorylating tau protein during the pathological progress of AD (Paper III). The analyses of roles of MARK proteins 1-4 in phosphorylating tau protein in cells and in post-mortem human brains were performed in Paper IV. The focus of this thesis was the study of post-translational modifications and interactions of proteins in medicine. Procedures for high performance protein analysis in western blotting via proximity ligation were developed, and a functionalization method for recombinant affinity reagents in DNA-mediated protein analysis was established. These and other techniques were used to investigate the roles of tau-phosphorylating MARK family proteins in AD. protein post-translational modification interactions protein domain western blotting MARK tau AD

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