Global ETD Search

21	Modification of Cardiac Membrane Gsα by an Endogenous Arginine-Specific Mono-Adp-Ribosyltransferase Coyle, Donna L. (Donna Lynn) 12 1900 (has links) The mechanism by which nicotinamide adenine dinucleotide (NAD) stimulates the activity of adenylate cyclase (AC) in canine plasma membrane has been studied. Using [3 2P]-NAD, the activation by NAD was correlated with the radiolabeling of the stimulatory guanosine triphosphate (GTP) binding protein Gsa. Further characterization demonstrated that the modification occurred only in the presence of G-protein activators and that arginine residue(s) were modified by ADP-ribose by the action of a mono-ADP-ribosyltransferase. Inhibitors of the transferase blocked both the modification of Gsa and the activation of AC. Collectively, these studies suggest that ADP-ribosylation of Gsa by an endogenous mono-ADP-ribosyltransferase may regulate cardiac AC. nicotinamide adenine dinucleotide ADP-ribosylation adenylate cyclase G proteins NAD (Coenzyme) ADP-ribosylation. Adenylate cyclase. G proteins.
22	Cytoplasmic and Mitochondrial NADPH-Coupled Redox Systems in the Regulation of Aging Bradshaw, Patrick C. 01 March 2019 (has links) The reduced form of nicotinamide adenine dinucleotide phosphate (NADPH) protects against redox stress by providing reducing equivalents to antioxidants such as glutathione and thioredoxin. NADPH levels decline with aging in several tissues, but whether this is a major driving force for the aging process has not been well established. Global or neural overexpression of several cytoplasmic enzymes that synthesize NADPH have been shown to extend lifespan in model organisms such as Drosophila suggesting a positive relationship between cytoplasmic NADPH levels and longevity. Mitochondrial NADPH plays an important role in the protection against redox stress and cell death and mitochondrial NADPH-utilizing thioredoxin reductase 2 levels correlate with species longevity in cells from rodents and primates. Mitochondrial NADPH shuttles allow for some NADPH flux between the cytoplasm and mitochondria. Since a decline of nicotinamide adenine dinucleotide (NAD + ) is linked with aging and because NADP + is exclusively synthesized from NAD + by cytoplasmic and mitochondrial NAD + kinases, a decline in the cytoplasmic or mitochondrial NADPH pool may also contribute to the aging process. Therefore pro-longevity therapies should aim to maintain the levels of both NAD + and NADPH in aging tissues. aging C. elegans drosophila glutathione lifespan longevity mitochondrial NADP NADPH redox thioredoxin Biomedical Sciences
23	Modulation of Spontaneous Transmitter Release From the Frog Neuromuscular Junction by Interacting Intracellular CA<sup>2+</sup> Stores: Critical Role for Nicotinic Acid-Adenine Dinucleotide Phosphate (Naadp) Brailoiu, Eugen, Patel, Sandip, Dun, Nae J. 15 July 2003 (has links) Nicotinic acid-adenine dinucleotide phosphate (NAADP) is a recently described potent intracellular Ca2+-mobilizing messenger active in a wide range of diverse cell types. In the present study, we have investigated the interaction of NAADP with other Ca2+-mobilizing messengers in the release of transmitter at the frog neuromuscular junction. We show, for the first time, that NAADP enhances neurosecretion in response to inositol 1,4,5-trisphosphate (IP3), cADP-ribose (cADPR) and sphingosine 1-phosphate (S1P), but not sphingosylphosphorylcholine. Thapsigargin was without effect on transmitter release in response to NAADP, but blocked the responses to subsequent application of IP3, cADPR and S1P and their potentiation by NAADP. Asynchronous neurotransmitter release may therefore involve functional coupling of endoplasmic reticulum Ca2+ stores with distinct Ca2+ stores targeted by NAADP. Ca mobilization 2+ Ca stores 2+ endoplasmic reticulum neurotransmitter release Thapsigargin
24	Preclinical evaluation of NAMPT inhibitor KPT-9274 in Acute Myeloid Leukemia Mitchell, Shaneice Renee 19 June 2019 (has links) No description available. Biomedical Research Oncology Pharmacology NAMPT AML acute myeloid leukemia leukemia hematologic malignancies metabolism nicotinamide phosphoribosyltransferase nicotinamide NAD nicotinamide dinucleotide
25	Bioeletrocatálise de etanol utilizando álcool desidrogenase em eletrodos de carbono funcionalizados com quinonas: da eletroquímica molecular para uma abordagem operando em resonância paramagnética de elétrons / Ethanol bioelectrocatalysis using alcohol dehydrogenase on quinone-functionalized carbon-based electrodes: from molecular electrochemistry to operando-electron paramagnetic resonance approach Ali, Mian Abdul 04 April 2019 (has links) Diferentes estratégias têm sido propostas a fim de melhorar o desempenho dos bioeletrodos utilizados nas biocélulas a combustíveis e nos biossensores. Por examplo, a funcionalização de eletrodos de carbono tem sido feita para esse fim. Neste estudo, propomos o desenvolvimento de fibras flexíveis de carbono (FFCs) funcionalizadas com grupos quinona e modificados com álcool desidrogenase (ADH) NAD-dependente para obter bioeletrodos para uma bio-eletrocatálise eficiente de etanol. Grupos quinona na superfície das FFCs foram obtidas utilizando o tratamento oxidativo com permanganato e também pelo ancoramento eletroquímico de antraquinona: ambas metodologias resultaram em bioeletrodos para a eletro-oxidação de NADH que pode aumentar a bio-eletrocatálise do etanol. De acordo dados espectroscópicos, microscópicos, e eletroquímicos, defeitos contendo grupos C=O nos eletrodos de FFCs são atribuídos à melhora na oxidação do NADH, aumentando a bio-eletrocatálise do etanol. Para se investigar o papel dos grupos quinona na eletro-oxidação do NADH, propomos uma configuração experimental baseado na espectroscopia de ressonância paramagnética de elétrons em modo operando (operando EPR). Com essa técnica, fomos capaz de mostrar a correlação entre o número de elétrons livres desemparelhados, a concentração superficial de quinonas e a oxidação do NADH com controle eletroquímico. Correlação para a concentração de spins revela um aumento no número de elétrons desemparelhados livres com o aumento do sobrepotencial aplicado e a oxidação do NADH, o que corrabora com a hipótese de que grupos quinona podem afetar a eletrocatálise rumo à oxidação do NADH a NAD+. É vislumbrado que operando EPR pode fornecer infromação útil para provar a dinâmica da transferência de elétrons em superfície de carbono e possa ser extendida a outros sistemas bioeletroquímicos. / There are several strategies to improve the performance of bioelectrodes applied in biosensors and biofuel cells. For instance, surface functionalization of the carbon-based electrodes has been used to this intend. Herein, we propose the development of flexible carbon fibers (FCFs) functionalized with quinone groups and modified with NAD-dependent alcohol dehydrogenase (ADH) to obtain bioelectrodes for efficient ethanol bio-electrocatalysis. Quinones groups on FCFs surfaces were obtained by using oxidative treatment with permanganate, and also by electrochemical grafting of anthraquinone: both these methodologies result in bioelectrodes for the electro-oxidation of NADH that can improve the ethanol bio-electrocatalysis. Based on spectroscopic, microscopic and electrochemical data, defects containing C=O groups on FCFs electrodes are attributed to improve the NADH oxidation, enhancing the ethanol bio-electrocatalysis. In order to investigate the role of quinone groups on the NADH electro-oxidation, we propose an experimental setup based on operando electron paramagnetic resonance spectroscopy (operando EPR). With this technique, we are able to show a correlation among the number of free unpaired electrons, surface concentration of quinones and NADH oxidation under electrochemical control. Correlation for the spin concentration reveals an increasing number of free unpaired electrons with increasing applied overpotential and NADH oxidation, which corroborates the hypothesis that quinone groups can act as electrocatalysts towards the oxidation of NADH to NAD+. It is glimpsed that operando EPR can provide useful information in probing the electron transfer dynamics on a carbon surface and may be extended to others bioelectrochemical systems. alcohol dehydrogenase Álcool desidrogenase bioelectrocatalysis Bioeletrocatálise Electron paramagnetic resonance Fibras Flexíveis de Carbono flexible carbon fibers Nicotinamida adenina dinucleotídeo nicotinamide adenine dinucleotide Ressonância paramagnética eletrônica
26	Crystal Structures of a Bacterial Isocitrate Dehydrogenase and the Human Sulfamidase / Pushing the Limits of Molecular Replacement Sidhu, Navdeep Singh 09 January 2014 (has links) No description available. 540 sulfamidase crystal structure isocitrate dehydrogenase molecular replacement sulfamate sulfohydrolase heparan N-sulfatase N-sulfoglucosamine sulfohydrolase Chemie (PPN62138352X)
27	The USPA2 protein and serum resistance of Moraxella Catarrhalis Attia, Ahmed Sherif. January 2006 (has links) Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2006. / Embargoed. Vita. Bibliography: 194-220.
28	Evaluation of method for function control of test assay’s complementing and signaling enzymes Strand, Alva January 2022 (has links) Nucleoside 5'-Diphosphate Kinase (NdPK EC 2.7.4.6) is an enzyme (phosphotransferase) with extraordinary characteristics due to its unique ability to transfer phosphor groups to interconvert all nucleoside di- and triphosphates as a part of the DNA synthesis. Due to Biovica International AB's use of signaling and complementing enzymes in their in vitro diagnostic (IVD) test assays for Thymidine Kinase activity, an investigation was proposed to evaluate NdPK, which is a complementing enzyme in the assay. The aim of the study was to evaluate the enzymatic turnover of the enzyme NdPK with a spectrophotometric assay to obtain the specific activity (Units/mg solid protein). To determine the specific activity, enzyme kinetic methodology was applied, including the Michaelis-Menten model. In this study, the method is proposed as a general internal control procedure for the company, as a tool for function control of the different purchased enzymes used in their products in development. Results from the study reflects the different methods used to gain the specific activity for NdPK, where they were compared with the already specified specific activity from the manufacturing company. The results were auspicious, but before the method's authorization as an internal quality procedure, a few amendments are in mind. For instance, determining a method for the graphical readings, validating the method for quality control, and investigating if the method is applicable to other complementing enzymes. In conclusion, the method for determining the specific activity of the enzyme NdPK can be done, by executing the procedure of colorimetric enzyme assay. Nucleoside 5´-Diphosphate Kinase (NdPK) Adenosine 5´-Triphosphate (ATP) Rate-limiting enzyme Enzymatic specific activity. Biomedical Laboratory Science/Technology
29	Transient State Monitoring and Fluorescence Correlation Spectroscopy of Flavin Adenine Dinucleotide Egnell, Liv January 2014 (has links) Many human diseases including cancer have been associated with altered cellular metabolism and a changed oxygen consumption in cells. Fluorophores are sensitive to their local environment due to their long life times in transient dark states. A recent study successfully utilized this sensitivity to image differences in oxygen concentrations in cells using transient state (TRAST) microscopy together with fluorescent labels [1]. A natural continuation of this study is to investigate the possibilities of using this method with natural fluorophores already present in cells and thereby avoid articial labeling. Flavin adenine dinucleotide (FAD) is an auto fluorescent coenzyme that is naturally present in cells and involved in cellular metabolism. This project is an exploratory pilot study for cellular measurements with the aim to investigate if FAD can be used to probe oxygen concentrations in aqueous solution using transient state monitoring and fluorescence correlation spectroscopy (FCS). This thesis includes the results from FCS and TRAST experiments on FAD in aqueous solutions with different oxygen concentrations as well as different ascorbic acid concentrations. The performed experiments showed that FAD monitored with TRAST is sensitive to differences in oxygen concentrations for the aqueous solutions used in this study. Transient State Monitoring Fluorescence Correlation Spectroscopy Flavin Adenine Dinucleotide FCS TRAST FAD Biophysics Biofysik Engineering and Technology Teknik och teknologier Medical Engineering Medicinteknik
30	Two-pore channels and NAADP-dependent calcium signalling Calcraft, Peter James January 2010 (has links) Nicotinic acid adenine dinucleotide phosphate (NAADP) is a potent Ca²⁺ mobilising messenger in mammalian and non-mammalian cells. Studies on a variety of cell types suggest that NAADP evokes Ca²⁺ release from a lysosome-related store and via activation of a receptor distinct from either ryanodine receptors (RyR) or inositol 1,4,5-trisphosphate (IP₃) receptors (IP₃R). However, the identity of the NAADP receptor has, until now, remained elusive. In this thesis I have shown that NAADP-evoked Ca²⁺ release from lysosomes is underpinned by two-pore channels (TPCs), of which there are 3 subtypes, TPC1, TPC2 and TPC3. When stably over-expressed in HEK293 cells, TPC2 was found to be specifically targeted to lysosomes, while TPC1 and TPC3 were targeted to endosomes. Initial Ca²⁺ signals via TPC2, but not those via TPC1, were amplified into global Ca²⁺ waves by Ca²⁺-induced Ca²⁺ release (CICR) from the endoplasmic reticulum (ER) via IP₃Rs. I have shown that, consistent with a role for TPCs in NAADP-mediated Ca²⁺ release, TPC2 is expressed in pulmonary arterial smooth muscle cells (PASMCs), is likely targeted to lysosomal membranes, and that TPCs also underpin NAADP-evoked Ca²⁺ signalling in this cell type. However, and in contrast to HEK293 cells, in PASMCs NAADP evokes spatially restricted Ca²⁺ bursts that are amplified into global Ca²⁺ waves by CICR from the sarcoplasmic reticulum (SR) via a subpopulation of RyRs, but not via IP₃Rs. I have demonstrated that lysosomes preferentially co-localise with RyR subtype 3 (RyR3) in the perinuclear region of PASMCs to comprise a “trigger zone” for Ca²⁺ signalling by NAADP, away from which a propagating Ca²⁺ wave may be carried by subsequent recruitment of RyR2. The identification of TPCs as a family of NAADP receptors may further our understanding of the mechanisms that confer the versatility of Ca²⁺ signalling which is required to regulate such diverse cellular functions as gene expression, fertilization, cell growth, and ultimately cell death. 572

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