Global ETD Search

11	Methods For Understanding Bacterial Metabolic Activity In Activated Sludge Wos, Melissa Louise, n/a January 2005 (has links) Biological wastewater treatment relies on the diverse and complex metabolic activities of bacteria to remove pollutants. Its success depends on the metabolic efficiency of the bacteria. Activated sludge models use parameters that attempt to depict bacterial growth and metabolic processes. However, current methods do not separate metabolic activity from growth and maintenance. As a result, activated sludge processes are misinterpreted or over-simplified. Alternative methods for gauging bacterial activity have been proposed and include the measurements of cellular derived compounds that relate specifically to energy cycling and include Nicotinamide Adenine Dinucleotide [NADH]. To date, NADH has been largely measured within activated sludge using commercial online fluorimeters with in situ probes. However, this current method provides a measure of the 'bulk' (raw) fluorescence within the system, resulting in difficulties when interpreting fluorescence data and poor sensitivity for detecting changes in intracellular [NADH]. This study has developed a more reliable method for estimating intracellular [NADH] and thus metabolic activity within activated sludge systems. Separating extracellular from intracellular [NADH] in samples was crucial because NADH was released and accumulates in the extracellular environment at a concentration of 200 ~M immediately following bacterial death or lysis. This concentration did not decline overtime. This not only caused high background fluorescence but also reduced the sensitivity of detection for changes in intracellular [NADH]. In particular, considerably higher [NADH] values to those from the extracellular suspensions were obtained following extraction of the intracellular material, suggesting that the cell membranes were not being penetrated by the excitable light source. Of the extraction procedures examined, filtration followed by extraction of the intracellular material with a hot Tris buffer was the most efficient and was recommended for accurate estimates of intracellular [NADH] in situ. In addition, standards were used to quantify NADH (moles per cell and/or unit volume) from unknown samples. The limits of detection were found to be 1.058 - 353 uM, whereas concentrations above 353 jAM self-quenched. Sample concentrations were always within these limits of detection. Hence, the sensitivity, reliability and experimental application of the original method was improved upon and able to be used for the direct measurement of microbial metabolic activity, something that has not been demonstrated before now. This study found that bacteria have between 106~ I 08 NADH molecules per cell depending on their metabolic state. A highly metabolically active bacterial cell had between 1O6~ tO7 NADH molecules, while a less active bacterial cell had between to7 -to8 NADH molecules. These measurements of metabolic activity were simultaneously monitored alongside other measures of bacterial growth, such as the incorporation of radiolabelled thymidine into DNA as a direct measure of DNA replication (new cell synthesis), the incorporation of radiolabelled leucine into protein as a direct measure of protein synthesis, oxygen uptake rates (OUR) as a direct measure of respiration, ATP as a measure of potential energy and dissolved organic carbon (DOC) as a measure of substrate assimilation. As OUR deceased, bacterial growth (using both the thymidine and leucine assays), specific [NADH] and specific [ATP] increased. High OUR and substrate oxidation rates simultaneous with low specific [NADH] indicated high rates of electron transport and thus efficient metabolic activity. Also, low OUR and substrate oxidation rates simultaneous with high specific [NADHI indicated inefficient rates of electron transport, therefore inhibiting oxidative phosphorylation (ATP production). A lack of oxygen as the terminal electron acceptor did not efficiently reoxidise NADH to NAD and resulted in an accumulation of NADH within the cell. Thus, a measure of low specific [NADHI was linked to the efficient rate of reoxidation of NADH to NAD* and reflects high metabolic efficiency. DNA and protein syntheses were coupled following substrate enrichment (glucose or acetate), indicating that bacteria were in balanced growth. However, DNA and protein syntheses became uncoupled once substrate was depleted, indicating unbalanced growth. An average Leu:TdR ratio of 7.4 was determined for activated sludge and was comparable to values published from marine systems. This ratio increased during log growth phase and decreased during stationary growth phases. Specific growth rates determined using the [3HITdR and [3H]Leu assay yielded values ranging from 2 - 10.5 d' and from 2.5 - 6 d1, respectively and were comparable to published values. Changes in OUR, NADH, ATE', DNA replication and protein synthesis were statistically ordinated using multidimensional scaling, and changes (in magnitude and direction) in bacterial metabolic activity were observed. Such methods enable the tracing of where bacteria divert their energies, such as to growth or maintenance and thus provide a greater understanding of bacterial behaviour in activated sludge. While studying anoxic and anaerobic conditions were beyond the scope of this work, the use of such methods to monitor bacterial metabolic activity under such conditions is warranted. Bacterial metabolic activity activated sludge biological wastewater treatment nicotinamide adenine dinucleotide NADH molecules oxygen uptake rates disolved organic carbon
12	Caracterização molecular e bioquímica de um transportador mitocondrial de nicotinamida adenina dinucleotídeo de Aspergillus fumigatus / Molecular and biochemical characterization of a mitochondrial nicotinamide adenine dinucleotide carrier of Aspergillus fumigatus Laís de Lourdes de Lima Balico 03 November 2014 (has links) O A. fumigatus é um fungo saprofítico e tornou-se um dos principais agente patogênico oportunista em pacientes imunossuprimidos. Estudos prévios em nosso laboratório foi demonstrado que em mitocôndrias de P. brasiliensis e de A. fumigatus, o NAD+ era capaz de induzir a formação de potencial de membrana mitocondrial, o qual podia ser dissipado por FCCP, sugerindo a presença de um transportador de NAD+/NADH, conforme havia sido descrito em S. cerevisiae. Através de ferramentas de bioinformática, foi identificado no Aspergillus Gene Database, uma sequência com 32% de identidade com o gene ndt1p de S. cerevisiae. A sequência de cDNA, contendo 1.194 pb foi obtida usando PCR-Overlaping e clonada em vetor pGEM®-T Easy. Em seguida, a sequência foi subclonada em vetor de expressão pET28-a(+) e expressa em E. coli BL21(DE3). A proteína recombinante foi purificada a partir dos corpos de inclusão e sua identidade confirmada por espectrometria de massas e por Western Blotting usando anticorpo anti-His-tag. A proteína recombinante foi utilizada para produção de anticorpo policlonal anti-Ndt1 em coelho. Para expressão em levedura, o cDNA do gene ndt1 de A. fumigatus foi subclonado em vetor pYES2 e as leveduras S. cerevisiae ?ndt1?ndt2 foram transformadas. Foi realizada a curva de crescimento e indução da expressão da proteína recombinante Ndt1, a presença da proteína foi detectada utilizando anticorpo policlonal anti-Ndt1 após 16 horas de expressão. Nesse período foi verificado que as leveduras estavam em fase de crescimento exponencial. A cepa duplo mutante apresenta uma taxa de crescimento menor quando comparada com a cepa expressando a proteína recombinante quando crescidas em meio fermentável. As mitocôndrias isoladas de ambas as cepas foram submetidas à medida do potencial de membrana onde apresentavam acoplamento entre a oxidação de substratos e a fosforilação oxidativa. Além disso, ficou evidenciado que na cepa expressando a proteína recombinante, NAD+ induziu a formação de um potencial de membrana maior que na cepa controle. O transporte de NAD+ foi realizado e demonstrou que a cepa expressando a proteína Ndt1 tinha um aumento na fluorescência de NADH, mostrando que NAD+ foi capaz de entrar na matriz mitocondrial e posteriormente ser reduzido a NADH por enzimas da matriz mitocondrial. A determinação da produção de espécies reativas de oxigênio foi realizada utilizando as sondas fluorescentes CM-H2DCFDA e MitoSox Red em esferoplastos da levedura S. cerevisiae. Ambos experimentos não houve diferença significativa entre a cepa expressando a proteína Ndt1 e a cepa controle. As proteínas carboniladas foram determinadas utilizando anticorpo anti-DNP, após a reação com dinitrofenilhidrazona e não há diferença significativa entre as cepas. Finalmente, para confirmação da localização celular da proteína Ndt1, os esferoplastos de S. cerevisiae foram submetidos à microscopia confocal, onde ficou evidenciado a co-localização da proteína Ndt1 com as mitocôndrias na cepa de S. cerevisiae transformada com a construção pYES/ndt1, o mesmo perfil não foi observado na cepa ?ndt1?ndt2. / The A. fumigatus is a saprophytic fungus and is a major opportunistic pathogen in immunosuppressed patients. Previous studies in our lab has showed that mitochondrias of the P. brasiliensis and A. fumigatus, NAD+ is able to induce the formation of mitochondrial membrane potential, which could be dissipated by FCCP, suggesting the presence of a NAD+/NADH carrier as described in S. cerevisiae. Using bioinformatics tools, it was identified in Aspergillus Gene database a sequence containing 32% of identity with the gene ndt1p of S. cerevisiae. A fragment of cDNA was obtained from the ndt1p mRNA sequence, containing 1194 bp by using PCR-overlaping and cloned in pGEM®-T Easy vector. Then, the sequence was subcloned in pET28-a(+) vector and expressed in E. coli BL21 (DE3). The recombinant protein was purified from inclusion bodies and the identity confirmed by mass spectrometry and by Western Blotting using anti-His-tag antibody. The recombinant protein was used to produce polyclonal antibody anti-Ndt1 in rabbit. For expression in yeast, the ndt1 cDNA of A. fumigatus was subcloned into pYES2 vector and the yeast S. cerevisiae ?ndt1?ndt2 were transformed. Growth curve and induction of the recombinant protein expression Ndt1 was performed and the protein was detected using a polyclonal anti-Ndt1 antibody after 16 hours of expression. During this period it was found that the yeast were in exponential growth phase. The double mutant strain shows a slower growth rate compared to the strain expressing the recombinant protein growth rate when grown in fermentable medium. The isolated mitochondria from both strains were subjected to measurement of the membrane potential which showed coupling between substrate oxidation and oxidative phosphorylation. Furthermore, these measurements evidenced that the strain expressing the recombinant protein NAD+ induced the formation of a membrane potential larger than the control strain. The transport NAD+ was evaluated and showed that the strain expressing the protein Ndt1 has an increase in NADH fluorescence, indicating that NAD+ was able to enter into the mitochondrial matrix and then reduced to NADH by enzymes from the matrix. The determination of the production of reactive oxygen species was performed using the fluorescent probe CM-H2DCFDA and MitoSox Red in spheroplasts of the yeast S. cerevisiae. Both experiments showed no significant difference between the strain expressing Ndt1 protein and strain control. The carbonylated proteins levels were checked using anti-DNP, after the reaction with dinitrophenylhydrazone and there is no significant difference between the strains. Finally, to confirm the cellular localization of the protein Ndt1, spheroplasts of S. cerevisiae were subjected to confocal microscopy, which evidenced the co-location of Ndt1 protein with mitochondria in S. cerevisiae strain transformed with the construction pYES/ndt1. This same profile was not observed in strain ?ndt1?ndt2. Aspergillus fumigatus Mitocôndria Saccharomyces cerevisiae Aspergillus fumigatus Mitochondria Saccharomyces cerevisiae
13	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.
14	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
15	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
16	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)
17	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
18	Caracterização molecular e morfológica de populações de Aedes aegypti (Diptera:Culicidae) no estado de São Paulo. / Molecular and morphological characterization of Aedes aegypti populations (Diptera: Culicidae) from State of São Paulo. Vidal, Paloma Oliveira 17 November 2015 (has links) O Estado de São Paulo apresenta uma das mais altas taxas de infecções por vírus dengue no Mundo, mas apesar dessa situação, poucos são os estudos dirigidos às populações do mosquito Aedes aegypti. O objetivo deste trabalho foi caracterizar geneticamente e morfologicamente populações de Ae. aegypti localizadas em seis municípios (Santos, S.P., Campinas, São Carlos, Catanduva, S.J.R.P.) do Estado de São Paulo durante 2011 e 2012. Todos os marcadores biológicos indicaram estruturação populacional. Os oito loci microssatélites apontaram diferenciação genética moderada entre as populações (Fst= 0.04; p < 0,05) e os níveis de diversidade nucleotídica do gene COI (π =0,0062) e do gene ND4 (π=0,017) foram moderadamente altos. Duas linhagens geneticamente distintas foram encontradas no Estado. Ao longo dos meses que compreenderam o estudo, foram encontradas diferenças morfo-genéticas temporais entre as seis populações analisadas, possivelmente indicativas de microevolução. Os resultados obtidos podem ser úteis para compreendermos a dispersão deste mosquito vetor. / The State of São Paulo displays one of the highest rates of dengue infection in the world, but despite this fact, a few populational studies of Ae. aegypti have been undertaken. The aim of this study was to genetically and morphologically characterize Ae. aegypti populations from six locations in the São Paulo State (Santos, S.P., Campinas, São Carlos, Catanduva, S.J.R.P.) during 2011 and 2012. The phenetic and genetic analyses revealed that populations of Ae. aegypti are structured. Eight microsatellites loci were polymorphic and genetic differentiation among samples was moderate (Fst= 0.04; p < 0.05). Nucleotide diversities of COI (π = 0.0062) and ND4 gene (π = 0.017) were moderately high. Two lineages distinct genetically were found in the State. Over the months comprised by the study, we found the temporal genetics and morphologics differences among the six populations, a possibly indicative of microevolution of mosquitoes. The results of this study may be useful for understand the spread of this vector mosquitoes in the State of São Paulo. Citocromo oxidase subunidade I COI COI Culicidae Culicídeos Cytochrome oxidase subunit I Microevolução Microevolution Microsatellites Microssatélites Morfometria geométrica alar Mosquitoes Mosquitos ND4 ND4 Wing geometric morphometrics
19	Effects of Nicotinamide Riboside and Beta-hydroxybutyrate on C. elegans Lifespan Peters, Jeffery 01 May 2020 (has links) The nicotinamide riboside (NR) form of vitamin B3and the ketone body ß-hydroxybutyrate (BHB) are two of the most promising natural compounds yet identified for the treatment of aging and aging-related diseases. Forms of vitamin B3are precursors for the synthesis of the coenzymes nicotinamide adenine dinucleotide (NAD(H)) and nicotinamide adenine dinucleotide phosphate (NADP(H)). In aged cells levels of NAD+decline, decreasing metabolism and decreasing activity of protective sirtuin protein deacetylases. In aged cells NR, but not more common forms of vitamin B3, boost NAD+levels. BHB is naturally produced by the body when individuals fast or consume a ketogenic (KD) or calorically restricted (CR) diet. These diets have been shown to extend lifespan in mice, while they are also protective in many disease models. Caenorhabditis elegans, a roundworm with a short mean lifespan of roughly 2 to 3 weeks depending upon the temperature, is used as a model system to study aging. BHB has been previously shown to increase lifespan by roughly 20% when administered to C. elegans.We administered NR and BHB individually and together to C. elegans starting at two different developmental stages (larval stages 1 and 4) and measured lifespan. We found that administration of 20 mM DL-BHB decreased lifespan when first given at the L1 stage, while it robustly increased lifespan when first given at the L4 stage. Administration of 0.5 mM NR increased lifespan when first given at L1, with only a very slight increase when first given at L4. When initiating administration at L1, NR greatly mitigated the BHB-mediated decline in longevity, however, NR did not increase BHB-mediated lifespan extension when first administered at L4. Lifespan C. elegans Nicotinamide Riboside Beta-hydroxybutyrate Ketogenic Diet Nicotinamide Adenine Dinucleotide Biochemistry Chemical Actions and Uses Genetic Phenomena Medical Biochemistry Medical Cell Biology Medical Physiology Organic Chemicals
20	Development and Characterization of an Iridium-Modified Electrochemical Biosensor for Potential Diabetic Patient Management Fang, Lei January 2009 (has links) No description available. Biochemistry Biomedical Research Chemical Engineering Engineering Iridium-modified Electrochemical biosensor Think film printing Diabetic patient management Ketone body 3-hydroxybutyrate(3HB) Nicotinamide adenine dinucleotide(NAD+) Glycosylated hemoglobin (HbA1c) Fructosyl valine Diffusion-reaction model

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