Global ETD Search

401	AN INSIGHT INTO DIFFERENT MODES OF REMODELER REGULATION: FOCUS ON SACCHAROMYCES CEREVISIAE SWI/SNF Kundu, Soumyadipta 01 December 2016 (has links) ATP dependent chromatin remodelers use the energy from ATP hydrolysis to move, disassemble or alter the composition of nucleosomes. Though all remodelers share a conserved ATP hydrolysis and DNA translocase domain, their biochemical actions and in-vivo characteristics differ because of their subunits and accessory domains in the catalytic subunit that regulate its activity. Understanding how these domains contribute to remodeler regulation in terms of substrate interaction and regulation of the catalytic subunit is therefore important to understanding what causes a remodeler to behave differently, and what are the mechanistic underpinnings of such behavior. In this study we have addressed these questions using the SWI/SNF remodeler from budding yeast (Saccharomyces cerevisiae) to explore how different remodelers compare to SWI/SNF in terms of nucleosome interaction. Using a chemical based histone – remodeler photo-crosslinking and labeling approach, we show that different remodelers contact nucleosomes in patterns unique to their functions, and even remodelers that belong to the same family interact with nucleosomes in a unique manner to accomplish their respective remodeling results. In addition we delineate the functions of the AT hook motifs in the catalytic subunit of SWI/SNF using in-vitro and in-vivo techniques. We demonstrate the necessity of the regulatory action of the motif in the context of SWI/SNF remodeling due to its requirement for efficient ATP hydrolysis by the catalytic domain and therefore efficient remodeling. We also demonstrate for the first time that SWI/SNF in yeast is involved in transcriptional repression with evidence that the AT hook alters SWI/SNF activity at particular genomic regions. Regulation of SWI/SNF activity is an increasingly important topic of study, with mutations that cause SWI/SNF dysfunction being implicated in a large number of cancers and neurological diseases. We attempt to find out the biochemical implications of mutations in the catalytic, SnAC and AT hook motifs with respect to SWI/SNF activity. Taken together, this study provides an insight into some of the different mechanisms in which remodelers are regulated using budding yeast as a model system. AT hook Regulation of remodelers remodeler nucleosome interactions SWI/SNF
402	O papel dos nucleotídeos e nucleosídeos da adenina e do receptor P2x7 no controle da proliferação e morte celular e tumoral Mello, Paola de Andrade January 2015 (has links) Estudos têm demonstrado que o microambiente tumoral é rico em ATP e adenosina, sugerindo o envolvimento da sinalização purinérgica no desenvolvimento e/ou manutenção do câncer. Ainda, o receptor purinérgico P2X7, conhecido pelo seu papel na indução de apoptose, encontra-se reduzido em alguns tecidos tumorais em comparação aos tecidos saudáveis, indicando que a sua redução possa ser um mecanismo de resistência celular à apoptose. Dessa forma, compreender o papel da sinalização purinérgica no contexto do câncer se torna indispensável e permite que novas abordagens terapêuticas sejam implementadas. Nesse trabalho, avaliamos a função dos nucleotídeos e nucleosídeos da adenina, bem como do receptor P2X7 na indução da morte celular em células de câncer cervical. Também verificamos o efeito do heat shock na potencialização da atividade do receptor P2X7 frente à curta exposição ao ATP em células de câncer de cólon. De acordo com os nossos resultados, o efeito citotóxico do ATP extracelular nas linhagens de câncer cervical é mediado principalmente pela ação do seu metabólito adenosina, que ao entrar no interior das células, promove o aumento dos níveis intracelulares de AMP, ativação de AMPK, aumento da p53 e indução de autofagia. O papel do receptor P2X7 nesse contexto parece ser apenas coadjuvante, visto que o seu bloqueio ou silenciamento impediu em apenas 20% a morte celular. Além disso, utilizando células de câncer de cólon, nós demonstramos que o heat shock aumenta a funcionalidade do receptor P2X7, independente da interação com heat shock proteins ou canais do tipo conexina/panexina, potencializando o efeito citotóxico do ATP. Esse efeito parece estar relacionado à mudanças na composição e arquitetura da membrana celular, visto que o uso do agente fluidizador de membrana benzil álcool foi capaz de mimetizar o efeito do heat shock na potencialização do receptor P2X7 a 37ºC. Este estudo fornece evidências adicionais sobre o papel da sinalização purinérgica no contexto da biologia celular tumoral e abre novas perspectivas para o uso dos nucleotídeos de adenina associados a hipertermia como agentes adjuvantes na terapia do câncer. / The tumor microenvironment is rich in ATP and adenosine, suggesting an involvement for purinergic signaling in cancer development and surveillance. The P2X7 receptor, among the P2 purinergic receptors, is broadly recognized as the “death receptor”, because it promotes cell apoptosis when exposed to high levels of extracellular ATP. Researches have been shown that P2X7 protein levels are decreased at the tumor site in comparison to adjacent healthy tissue, suggesting a mechanism of tumor escape to cell death. Thus, understanding purinergic signaling in a cancer context becomes urgent and opens a new field for therapeutic strategies. Here, we evaluated adenine nucleotides and nucleosides cytotoxicity, as well as P2X7 role in cell death induction using cervical cancer cell lines. Indeed, we investigated heat shock effect on P2X7 functionality through exposing colon cancer cell shortly to ATP at 40ºC. According to our data, adenosine uptake formed from ATP metabolism is the main responsible for the extracellular ATP cytotoxicity in cervical cancer cells. While inside of the cell, adenosine is converted to AMP, leading to AMPK activation, p53 increase and autophagy induction. ATP induced cell death per se through P2X7 in this context seems to be less important, since P2X7 blockage or knocking down reduced only 20% of cell death. In colon cancer cells, we found that heat shock stress was able to increase P2X7 pore formation independently of heat shock protein interaction or native pore-forming transporters association (e.g pannexin-or connexin-type channels), thus leading to an increase ATP cytotoxicity. The mechanism enrolled in this process seems to be related to changes in the lipid composition and architecture of membrane, as the membrane fluidizer benzyl alcohol could reproduce heat stress effect in potentiating P2X7 activation at 37ºC. In conclusion, our work provides further evidence for a purinergic signaling role in the cancer biology context and opens new perspectives for the utility of purine-based drugs associated to hypertermia as adjunctive agents in cancer therapy. Farmácia ATP Adenosine Purinergic system P2X7 Cervical cancer Colon cancer Therapeutical target
403	Proposta de modelagem e simulação para análise de distorção harmônica Silva, Mauren Pomalis Coelho da January 2014 (has links) Este trabalho apresenta um estudo de Qualidade de Energia Elétrica (QEE) no sistema elétrico industrial de uma concessionária geradora de energia elétrica do Brasil. O estudo teve enfoque na distorção harmônica gerada nos serviços auxiliares da usina termoelétrica. Para tanto, foi necessária a simulação e análise da planta da termoelétrica, com atenção nos serviços auxiliares pertencentes a ela, devido aos altos níveis de distorções harmônicas registrados. A simulação foi feita com o programa ATP (Alternative Transients Program) no domínio do tempo, através de sua interface gráfica, o ATP Draw. Nele foram modelados os principais componentes que pertencem ao Sistema Elétrico de Potência (SEP) em questão, como geradores, transformadores, linhas e cargas não lineares. Com a modelagem do SEP da termoelétrica, é possível determinar os níveis da distorção harmônica em diversos locais da planta, e aprofundar o estudo para que seja possível fazer a mitigação desses distúrbios. A diminuição da distorção harmônica junto ao aumento do fator de potência permite um melhor desempenho da usina, aumentando a faturamento da empresa através do aumento da energia entregue ao sistema elétrico. / This dissertation presents a study of Power Quality in an electrical system of a thermoelectric power plant in Brazil. The study focused on the harmonic distortion generated in the auxiliary services of the plant. Therefore, it was necessary to simulate and analyze the thermal plant, with attention to auxiliary services belonging to it, due to high levels of harmonic distortion registered. The simulation was performed using the ATP (Alternative Transients Program) in the time domain through its interface, the ATP Draw. It were modeled the main components that belong to the Power System in question, such as generators, transformers, lines and non-linear loads. With the modeling of the thermoelectric plant, is possible to determine the levels of harmonic distortion at various locations within the plant. The reduction of harmonic distortion along with the increase of power factor allows a better plant performance, increasing company revenue by increasing the energy delivered to the electrical system. Sistema elétrico de potência Aerogeradores Máquinas elétricas Power quality Harmonic distortion Thermoelectric generation Software ATP draw
404	Právní vztahy v přepravě osob a zboží / Legal relations in transport of people and goods REZKOVÁ, Ivana January 2012 (has links) This thesis revers to the Legal relations in transport of people and goods. The introducy chapters are described types of transports. The major part of this text is dedicated to the international and inland treaties. In the practical part of this thesis directs its attention at clarifying essential parts of Agreement ADR and shows the application of Agreement ADR.In the closing part the autor indicates the necessity for a collaborative development of contracting states in Agreement ADR.
405	Adenosine signaling in Drosophila / Adenosine signaling in Drosophila KUČEROVÁ, Lucie January 2013 (has links) This thesis characterizes adenosine signalization in Drosophila and describes response to adenosine in various cell types. Extracellular adenosine mediates most of its physiological effects through its receptors but recent data also indicate that adenosine transport also has important physiological functions. It was shown in this thesis that adenosine stimulates only cAMP second messenger system in Drosophila cells endogenously expressing AdoR. The pharmacological profile of the DmAdoR was established using the cAMP functional assay. The utility of the agonist 2-chloroadenosine and antagonist SCH58261 were examined in flies in vivo and compared with phenotypes of DmAdoR mutants. The responses of Drosophila cells to adenosine mediated by adenosine transport were also examined. Different cell types exhibited striking differences in adenosine uptake and adenosine recycling that were closely connected with the regulation of carbohydrate and lipid metabolism. This thesis provides an important foundation for the study of interactions between adenosine receptor and adenosine transport.
406	La bioénergétique systémique moléculaire des cellules cardiaques : la relation structure-fonction dans la régulation du métabolisme énergétique compartmentalisé / Molecular system bioenergetics of cardiac muscle cells : structure-function relationship in regulation of compartmentalized energy metabolism. Gonzalez Granillo, Marcela Alejandra 28 September 2012 (has links) An important element of metabolic regulation of cardiac and skeletal muscle energetics is the interaction of mitochondria with cytoskeleton. Mitochondria are in charge of supplying the cells with energy, adjusting its functional activity under conditions of stress or other aspects of life. Mitochondria display a tissue-specific distribution. In adult rat cardiomyocytes, mitochondria are arranged regularly in a longitudinal lattice at the level of A band between the myofibrils and located within the limits of the sarcomeres. In interaction with cytoskeleton, sarcomeres and sarcoplasmic reticulum they form the functional complexes, the intracellular energetic units (ICEUs). The ICEUs have specialized pathways of energy transfer and metabolic feedback regulation between mitochondria and ATPases, mediated by CK and AK. The central structure of ICEUs is the mitochondrial interactosome (MI) containing ATP Synthasome, respiratory chain, mitochondrial creatine kinase and VDAC, regulated by tubulins. The main role of MI is the regulation of respiration and the intracellular energy fluxes via phosophotransfer networks. The regulation of ICEUs is associated with structural proteins. The association of mitochondria with several cytoskeletal proteins described by several groups has brought to light the importance of structure-function relationship in the metabolic regulation of adult rat cardiomyocytes. To purvey a better understanding of these findings, the present work investigated the mechanism of energy fluxes control and the role of structure-function relationship in the metabolic regulation of adult rat cardiomyocytes. To show these complex associations in adult cardiac cells several proteins were visualized by confocal microscopy: α-actinin and β-tubulin isotypes. For the first time, it was showed the existence of the specific distribution of β-tubulin isotypes in adult cardiac cells. Respiratory measurements were performed to study the role of tubulins in the regulation of oxygen consumption. These results together confirmed the crucial role of cytoskeletal proteins -i.e. tubulins, α-actinin, plectin, desmin, and others- for the normal shape of cardiac cells as well as mitochondrial arrangement and regulation. In addition, in vivo - in situ mitochondrial dynamics were studied by the transfection of GFP-α-actinin, finding that fusion phenomenon does not occur as often as it is believed in healthy adult cardiac cells. / Un élément important de la régulation du métabolisme énergétique des muscles cardiaque et squelettiques est l'interaction des mitochondries avec le cytosquelette. Les mitochondries sont responsables de l'approvisionnement des cellules en énergie, elles sont capables d'ajuster leur activité fonctionnelle en fonction des conditions de stress ou d'autres aspects de la vie. Les mitochondries ont une distribution spécifique selon les tissus. Dans les cardiomyocytes de rats adultes, les mitochondries sont disposées régulièrement dans un entrelacement longitudinal au niveau des bandes A, entre les myofibrilles et dans les limites des sarcomères. En interaction avec le cytosquelette, le sarcomère et le réticulum sarcoplasmique, elles forment des complexes fonctionnels appelés unités énergétiques intracellulaires (ICEUs). Les ICEUs ont des voies spécialisées de transfert d'énergie et de régulation des feedback métaboliques entre les mitochondries et les ATPases, médiée par la CK et l'AK. La structure centrale des ICEUs est l'interactosome mitochondrial (MI) qui confient l'ATP synthasome, la chaîne respiratoire, la créatine kinase mitochondriale et VDAC, qui pourrait être régulé par les tubulines. Le rôle principal du MI est la régulation de la respiration et des flux d'énergie intracellulaires via les réseaux de phosphotransfert. La régulation des ICEUs est liée aux protéines structurales. L'association des mitochondries avec plusieurs protéines du cytosquelette, décrite par plusieurs groupes, a mis en évidence l'importance de la relation structure-fonction dans la régulation métabolique des cardiomyocytes de rats adultes. Pour fournir une meilleure compréhension de ces résultats, le présent travail étudie le mécanisme de contrôle des flux d'énergie et le rôle des relations structure-fonction dans la régulation métabolique de cardiomyocytes de rats adultes. Pour montrer ces associations complexes dans les cellules cardiaques adultes, plusieurs protéines ont été visualisées par microscopie confocale: l'α-actinine et les isoformes des β-tubulines. Pour la première fois, l'existence d'une distribution spécifique des isoformes de β-tubuline dans les cellules cardiaques adultes a été montré. Des mesures respiratoires ont été réalisées pour étudier le rôle des tubulines dans la régulation de la consommation d'oxygène. Ces résultats ont confirmé le rôle déterminant des protéines du cytosquelette -tubulines, α-actinine, plectine, desmine, et autres- pour le maintien de la forme normale des cellules cardiaques, ainsi que de l'arrangement et de la régulation mitochondrial. En outre, la dynamique mitochondriale a été étudiée in vivo et in situ par la transfection de la GFP-α-actinine, ceci permettant la mise en évidence du fait que le phénomène de fusion ne se produit pas aussi souvent qu'on ne le croit pour des cellules cardiaques adultes en bonne santé. Couplage fonctionnel Compartimentation ATP Metabolisme énergétique Cardiomyocyte Cancer Functional coupling Compartmentation Energy metabolism Cardiomyocytes Cancer
407	Participação do sistema purinérgico no locus coeruleus (LC) no controle cardiorrespiratório e térmico em normocapnia e hipercapnia em ratos não anestesiados Biancardi, Vivian 14 December 2011 (has links) Made available in DSpace on 2016-06-02T19:22:55Z (GMT). No. of bitstreams: 1 4102.pdf: 1499777 bytes, checksum: 83d49633865ad84ab741b0091f168280 (MD5) Previous issue date: 2011-12-14 / Universidade Federal de Minas Gerais / Locus coeruleus (LC) is considered as a chemosensitive region to CO2/pH in mammals and amphibians, mainly its noradrenergic neurons. The LC purinergic neuromodulation is of particular interest since adenosine 5′-triphosphate (ATP) acts as a neuromodulator in many brainstem areas involved in cardiovascular and respiratory regulation, which includes Locus coeruleus (LC). ATP acting on LC P2 receptors influences the release of noradrenaline (NE) and the LC noradrenergic neurons are involved in the CO2-drive to breathing. Thus, the goal of the present study was to investigate the role of purinergic neuromodulation in the LC in the ventilatory, thermal and cardiovascular responses during normocapnia and hypercapnia in Wistar male unanesthetized rats. We assessed the purinergic modulation of cardiorespiratory and thermal responses by microinjecting ATP P2X receptor agonist (α,β-MeATP, 0.5 nmoL/40 nL and 1 nmoL/40 nL) and P2 receptor non selective antagonists (PPADS 0.5 nmoL/40 nL and 1 nmoL/40 nL; suramin, 1 nmoL/40 nL) into the LC. Pulmonary ventilation (VE, plethysmography), mean arterial pressure (MAP), heart rate (HR) and body core temperature (Tb, dataloggers) were measured before and after unilateral microinjection (40 nL) of α,β-MeATP, PPADS, suramin or 0.9% saline (vehicle) into the LC during 60 min normocapnia or 30 min period of 7% CO2 exposure followed by 30 min of normocapnia. Under normocapnic conditions, α,β-MeATP did not affect any parameter, whereas PPADS decreased respiratory frequency (f), increased MAP and HR and suramin increased Tb, MAP and HR and did not change ventilation. Hypercapnia induced an increase in ventilation, a fall in HR and did not change Tb in all groups. During hypercapnia, α,β-MeATP produced a further increase in ventilation and did not cause changes in cardiovascular and thermal parameters, PPADS caused an increase in MAP, did not alter ventilation and Tb and suramin elicited increases in ventilation, MAP and bradycardia and did not change Tb. Thus, our data suggest that purinergic neuromodulation in the LC plays an important role in the cardiorespiratory control during hypercapnia and modulates cardiorrespiratory and thermal control during normocapnic conditions in unanesthetized animals. / O LC é considerado uma região quimiossensível a CO2/pH em mamíferos e anfíbios, especificamente os neurônios noradrenérgicos. A neuromodulação purinérgica no LC desperta um interesse particular uma vez que a adenosina 5 -trifosfato (ATP) atua como neuromodulador em várias áreas do tronco encefálico envolvidas na regulação cardiorrespiratória, incluindo o LC e sua atuação em receptores P2 influencia a liberação de noradrenalina (NE) dos neurônios do LC. Portanto, o objetivo do presente estudo foi investigar a participação da neuromodulação purinérgica no LC nas respostas ventilatória, térmica e cardiovascular durante normocapnia e hipercapnia em ratos Wistar não anestesiados. A possível modulação do ATP nessas respostas foi realizada por meio da microinjeção do agonista de receptor P2X (α,β-MeATP, 0.5 nmol/40 nL e 1 nmol/40 nL) e dos antagonistas não seletivos de receptor P2 (PPADS 0.5 nmol/40 nL e 1 nmol/40 nL; suramin, 1nmol/40nL) no LC. Foram feitas medidas de ventilação pulmonar ( VE, pletismografia), temperatura corporal (TC) pressão arterial média (PAM) e frequência cardíaca (FC) antes da microinjeção unilateral de α,β--MeATP, PPADS, suramin ou salina (veículo, 40nL) no LC em condições basais, e após microinjeção durante 60 min de normocapnia ou 30 min de exposição a 7% CO2, seguido de 30 min de normocapnia. Em condições normocápnicas, a microinjeção de α,β-MeATP não afetou nenhuma das variáveis analisadas, enquanto que o PPADS promoveu uma redução da freqüência respiratória (fR), aumento da PAM e FC, e o suramin aumentou a TC, PAM e FC sem causar alterações na ventilação. A hipercapnia promoveu aumento da ventilação, uma redução na FC e não alterou a TC em todos os grupos. Durante hipercapnia, α,β-MeATP promoveu aumento da hiperpnéia sem causar alterações nas variáveis cardiovasculares e na temperatura, PPADS promoveu aumento da PAM sem alterar as variáveis respiratórias e a temperatura corporal e o suramin promoveu aumento da hiperventilação, aumento na PAM e bradicardia sem alterar a temperatura corporal. Portanto, nossos dados sugerem que a neuromodulação purinérgica no LC participa do controle cardiorrespiratório durante normocapnia e hipercapnia e modula a termorregulação em condições normocápnicas em animais não anestesiados. Respiração Adenosina trifosfato Suramin PPADS CO2 Neurofisiologia Adenosina 5′-trifosfato (ATP) α,β-Metileno ATP Receptores purinérgicos P2 Controle cardiovascular Locus coeruleus (LC) Adenosine 5′-triphosphate (ATP) α,β-Methylene ATP P2 purinergic receptors Breathing
408	O papel dos nucleotídeos e nucleosídeos da adenina e do receptor P2x7 no controle da proliferação e morte celular e tumoral Mello, Paola de Andrade January 2015 (has links) Estudos têm demonstrado que o microambiente tumoral é rico em ATP e adenosina, sugerindo o envolvimento da sinalização purinérgica no desenvolvimento e/ou manutenção do câncer. Ainda, o receptor purinérgico P2X7, conhecido pelo seu papel na indução de apoptose, encontra-se reduzido em alguns tecidos tumorais em comparação aos tecidos saudáveis, indicando que a sua redução possa ser um mecanismo de resistência celular à apoptose. Dessa forma, compreender o papel da sinalização purinérgica no contexto do câncer se torna indispensável e permite que novas abordagens terapêuticas sejam implementadas. Nesse trabalho, avaliamos a função dos nucleotídeos e nucleosídeos da adenina, bem como do receptor P2X7 na indução da morte celular em células de câncer cervical. Também verificamos o efeito do heat shock na potencialização da atividade do receptor P2X7 frente à curta exposição ao ATP em células de câncer de cólon. De acordo com os nossos resultados, o efeito citotóxico do ATP extracelular nas linhagens de câncer cervical é mediado principalmente pela ação do seu metabólito adenosina, que ao entrar no interior das células, promove o aumento dos níveis intracelulares de AMP, ativação de AMPK, aumento da p53 e indução de autofagia. O papel do receptor P2X7 nesse contexto parece ser apenas coadjuvante, visto que o seu bloqueio ou silenciamento impediu em apenas 20% a morte celular. Além disso, utilizando células de câncer de cólon, nós demonstramos que o heat shock aumenta a funcionalidade do receptor P2X7, independente da interação com heat shock proteins ou canais do tipo conexina/panexina, potencializando o efeito citotóxico do ATP. Esse efeito parece estar relacionado à mudanças na composição e arquitetura da membrana celular, visto que o uso do agente fluidizador de membrana benzil álcool foi capaz de mimetizar o efeito do heat shock na potencialização do receptor P2X7 a 37ºC. Este estudo fornece evidências adicionais sobre o papel da sinalização purinérgica no contexto da biologia celular tumoral e abre novas perspectivas para o uso dos nucleotídeos de adenina associados a hipertermia como agentes adjuvantes na terapia do câncer. / The tumor microenvironment is rich in ATP and adenosine, suggesting an involvement for purinergic signaling in cancer development and surveillance. The P2X7 receptor, among the P2 purinergic receptors, is broadly recognized as the “death receptor”, because it promotes cell apoptosis when exposed to high levels of extracellular ATP. Researches have been shown that P2X7 protein levels are decreased at the tumor site in comparison to adjacent healthy tissue, suggesting a mechanism of tumor escape to cell death. Thus, understanding purinergic signaling in a cancer context becomes urgent and opens a new field for therapeutic strategies. Here, we evaluated adenine nucleotides and nucleosides cytotoxicity, as well as P2X7 role in cell death induction using cervical cancer cell lines. Indeed, we investigated heat shock effect on P2X7 functionality through exposing colon cancer cell shortly to ATP at 40ºC. According to our data, adenosine uptake formed from ATP metabolism is the main responsible for the extracellular ATP cytotoxicity in cervical cancer cells. While inside of the cell, adenosine is converted to AMP, leading to AMPK activation, p53 increase and autophagy induction. ATP induced cell death per se through P2X7 in this context seems to be less important, since P2X7 blockage or knocking down reduced only 20% of cell death. In colon cancer cells, we found that heat shock stress was able to increase P2X7 pore formation independently of heat shock protein interaction or native pore-forming transporters association (e.g pannexin-or connexin-type channels), thus leading to an increase ATP cytotoxicity. The mechanism enrolled in this process seems to be related to changes in the lipid composition and architecture of membrane, as the membrane fluidizer benzyl alcohol could reproduce heat stress effect in potentiating P2X7 activation at 37ºC. In conclusion, our work provides further evidence for a purinergic signaling role in the cancer biology context and opens new perspectives for the utility of purine-based drugs associated to hypertermia as adjunctive agents in cancer therapy. Farmácia ATP Adenosine Purinergic system P2X7 Cervical cancer Colon cancer Therapeutical target
409	Proposta de modelagem e simulação para análise de distorção harmônica Silva, Mauren Pomalis Coelho da January 2014 (has links) Este trabalho apresenta um estudo de Qualidade de Energia Elétrica (QEE) no sistema elétrico industrial de uma concessionária geradora de energia elétrica do Brasil. O estudo teve enfoque na distorção harmônica gerada nos serviços auxiliares da usina termoelétrica. Para tanto, foi necessária a simulação e análise da planta da termoelétrica, com atenção nos serviços auxiliares pertencentes a ela, devido aos altos níveis de distorções harmônicas registrados. A simulação foi feita com o programa ATP (Alternative Transients Program) no domínio do tempo, através de sua interface gráfica, o ATP Draw. Nele foram modelados os principais componentes que pertencem ao Sistema Elétrico de Potência (SEP) em questão, como geradores, transformadores, linhas e cargas não lineares. Com a modelagem do SEP da termoelétrica, é possível determinar os níveis da distorção harmônica em diversos locais da planta, e aprofundar o estudo para que seja possível fazer a mitigação desses distúrbios. A diminuição da distorção harmônica junto ao aumento do fator de potência permite um melhor desempenho da usina, aumentando a faturamento da empresa através do aumento da energia entregue ao sistema elétrico. / This dissertation presents a study of Power Quality in an electrical system of a thermoelectric power plant in Brazil. The study focused on the harmonic distortion generated in the auxiliary services of the plant. Therefore, it was necessary to simulate and analyze the thermal plant, with attention to auxiliary services belonging to it, due to high levels of harmonic distortion registered. The simulation was performed using the ATP (Alternative Transients Program) in the time domain through its interface, the ATP Draw. It were modeled the main components that belong to the Power System in question, such as generators, transformers, lines and non-linear loads. With the modeling of the thermoelectric plant, is possible to determine the levels of harmonic distortion at various locations within the plant. The reduction of harmonic distortion along with the increase of power factor allows a better plant performance, increasing company revenue by increasing the energy delivered to the electrical system. Sistema elétrico de potência Aerogeradores Máquinas elétricas Power quality Harmonic distortion Thermoelectric generation Software ATP draw
410	Physiological and Genetic Mechanisms Underlying Variation in Anoxia Tolerance in Drosophila Melanogaster January 2018 (has links) abstract: The ability to tolerate bouts of oxygen deprivation varies tremendously across the animal kingdom. Adult humans from different regions show large variation in tolerance to hypoxia; additionally, it is widely known that neonatal mammals are much more tolerant to anoxia than their adult counterparts, including in humans. Drosophila melanogaster are very anoxia-tolerant relative to mammals, with adults able to survive 12 h of anoxia, and represent a well-suited model for studying anoxia tolerance. Drosophila live in rotting, fermenting media and a result are more likely to experience environmental hypoxia; therefore, they could be expected to be more tolerant of anoxia than adults. However, adults have the capacity to survive anoxic exposure times ~8 times longer than larvae. This dissertation focuses on understanding the mechanisms responsible for variation in survival from anoxic exposure in the genetic model organism, Drosophila melanogaster, focused in particular on effects of developmental stage (larval vs. adults) and within-population variation among individuals. Vertebrate studies suggest that surviving anoxia requires the maintenance of ATP despite the loss of aerobic metabolism in a manner that prevents a disruption of ionic homeostasis. Instead, the abilities to maintain a hypometabolic state with low ATP and tolerate large disturbances in ionic status appear to contribute to the higher anoxia tolerance of adults. Furthermore, metabolomics experiments support this notion by showing that larvae had higher metabolic rates during the initial 30 min of anoxia and that protective metabolites were upregulated in adults but not larvae. Lastly, I investigated the genetic variation in anoxia tolerance using a genome wide association study (GWAS) to identify target genes associated with anoxia tolerance. Results from the GWAS also suggest mechanisms related to protection from ionic and oxidative stress, in addition to a protective role for immune function. / Dissertation/Thesis / Results of GWAS for Adults Exposed to 6 H of Anoxia / Results of GWAS for Larvae Exposed to 1 H of Anoxia / Doctoral Dissertation Evolutionary Biology 2018 Physiology Biology Genetics anoxia ATP DGRP D. melanogaster Ionic homeostasis metabolomics

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