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21	Depleção de glicogenio e suplementação aguda de aminoacidos de cadeia ramificada em ratos treinados : implicações sobre as reações anapleroticas / Glycogen depletion and acute branched-chain aminoacids supplementation on submaximal exercise in trained rats : implications on anaplerotic reactions Campos, Patricia Lopes de 29 June 2005 (has links) Orientador: Antonio Herbert Lancha Junior / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-10T15:31:34Z (GMT). No. of bitstreams: 1 Campos_PatriciaLopesde_D.pdf: 998065 bytes, checksum: 6a4a069b0d9422cc32f9686a61e72b14 (MD5) Previous issue date: 2005 / Resumo: Durante o exercício sub-máximo, a utilização de estoques de glicogênio muscular é de suma importância para possibilitar a continuidade do mesmo. A suplementação de Aminoácidos de Cadeia Ramificada (AACR ou BCAA, do inglês Branched Chain Amino Acids) tem sido experimentada como forma de gerar energia para o músculo nessas condições. Através da utilização dos seus esqueletos de carbono, podem ser gerados intermediários do ciclo dos ácidos tricarboxílicos (CAT ou TCA, do inglês Tricarboxilic Acids Cycle); no entanto, há controvérsias quanto à eficiência dos AACR em aumentar a atividade do ciclo, uma vez que autores sugerem a diminuição da eficiência do mesmo após tal estratégia de suplementação. Por outro lado, há toda uma discussão na literatura acerca da importância do aumento dos intermediários do TCA nos primeiros momentos do exercício para apoiar o metabolismo oxidativo, assim como o impacto que as reações anapleróticas, que promovem esse fenômeno, apresentam, considerando-se o fluxo de energia total do TCA. O objetivo desse trabalho foi avaliar se a suplementação dos aminoácidos em questão seria capaz de alterar o desempenho de ratos treinados em exercício sub-máximo, e também a formação de alguns intermediários do TCA ou mesmo a atividade de enzimas importantes para esse fenômeno. Para isso foram utilizados ratos Wistar machos adultos, que foram treinados por 8 semanas em sistema de natação, e receberam na última semana, a suplementação de isoleucina, leucina ou valina, exclusivamente, ou então os três aminoácidos em conjunto, ou placebo, por 7 dias. No sexto dia de suplementação, eles fizeram a última sessão de treinamento de 1 hora de natação, foram mantidos em jejum por 24 horas e, no dia seguinte, foram submetidos a um teste sub-máximo de natação, até a exaustão. O grupo AACR teve aumento na síntese de malato e o grupo isoleucina apresentou maior atividade das transaminases de alanina e aspartato (AAT e AST), quando comparados ao placebo. Não houve diferença no desempenho dos animais em relação à resistência à fadiga, apesar do grupo leucina apresentar menores concentrações de glicogênio muscular que o grupo placebo. Concluiu-se que os AACR não foram capazes de alterar atividade do ciclo de Krebs, nem o desempenho nessas condições experimentais / Abstract: During submaximal exercise, muscle glycogen utilization is important. Branched-chain AminoAcids supplementation has been utilized during the past years to provide energy for muscles in this condition, through their carbon skeletons, which might generate tricarboxilic acids cycle's intermediates (TCAI). However, this hypothesis remains controversial. On the other hand, there is a recent discussion on the literature about the real importance of the rapid muscle TCAI raise and its role for de TCA cycle. This study aimed to evaluate if BCAA supplementation in trained rats submitted to sub-maximal exercise were capable of changing TCAI activity or transaminases (AAT and AST) concentration, or even performance in muscle depletion. Wistar Male Adult rats were trained for 8 weeks in a proper swimming system. In the last week they received BCAA supplementation. Before the final experiment, they trained for 1 hour, and then wento through a 24 h fasting. The final test consisted on swimming until exhaustion, then they were euthanized and tissues were kept in liquid Nitrogen until further analysis. BCAA group had higher muscle concentrations of malate. Isoleucine group had higher muscle transaminases¿ concentration, although rats supplemented with leucine alone had lower muscle glycogen levels than placebo group. We concluded that none of the BCAA supplementation was able to affect performance or TCA activity in our experimental conditions / Doutorado / Bioquimica / Doutor em Biologia Funcional e Molecular Aminoacidos de cadeia ramificada Exercícios físicos Rato Krebs, Ciclo de Branched chain amino acids Physical exercises Rat Krebs Cycle
22	Nova tecnologia aplicada ao ensino de bioquímica : construção e validação de um software educacional do tipo jogo Azevedo, Ana Maria Ponzio de January 2005 (has links) Este trabalho descreve o planejamento, desenvolvimento e validação de um modelo de software educacional. O aplicativo é um ambiente multimídia de ensino e aprendizagem do Metabolismo dos Glicídios e o Ciclo de Krebs, denominado e-Metabolismo: Glicídios e contém um jogo de seqüência para o ensino de Bioquímica, denominado Diagrama Metabólico Dinâmico Virtual. O estudo de teorias pedagógicas e a experiência em aulas com os alunos do curso de medicina da Fundação Faculdade Federal de Ciências Médicas de Porto Alegre apontou a necessidade de mudanças no ensino de Bioquímica com uso das novas tecnologias de informação e comunicação. A justificativa do uso de um jogo virtual como método de ensino tem por base os resultados obtidos com o uso de um jogo de seqüência lógica em tabuleiro, na Disciplina de Bioquímica. O desenvolvimento do e-Metabolismo: Glicídios, tendo como referência a prática pedagógica baseada na epistemologia genética Jean Piaget, incluiu no seu planejamento a escolha de ferramenta de programação para permitir a interação do usuário (aluno) com o ambiente. O produto utiliza amplamente recursos de multimídia e pode ser disponibilizado num servidor ou em forma de CD-ROM. O ambiente virtual possibilita a interação do aluno com o ambiente e com colegas e professores através de ferramentas como, por exemplo, acesso a e-mails, chats, fóruns, mapas conceituais e diário de bordo. Instrumentos de avaliação de software foram estudados e aplicados com alunos de Disciplinas de Bioquímica no sentido de validar o software e-Metabolismo tanto no que se refere aos aspectos técnicos como a aprendizagem do conteúdo pelos alunos. Experiências com o uso do software foram, primeiramente, realizadas com alunos do curso de Medicina da FFFCMPA e depois com alunos de outros cursos. O primeiro grupo de alunos que avaliaram o e-Metabolismo foi formado pelos monitores da Disciplina. Mapas conceituais, testes escritos e avaliação dos registros deixados pelos usuários no próprio software foram utilizados como instrumentos de avaliação do conhecimento dos alunos. O grau de satisfação com o uso do método de estudo, foi avaliado por um questionário, cujas respostas foram analisadas e categorizadas. Os resultados obtidos indicam que o ambiente apresenta interface de fácil acesso, desperta o interesse, possibilita ao aluno escolher de que maneira quer fazer o seu estudo sem prejuízos no seu desempenho e facilita o estudo, sendo, portanto, considerado válido como instrumento educacional. Por se tratar de um ambiente dinâmico, deve ser constantemente atualizado, e a versão atual contém as modificações sugeridas por professores e alunos, facilitando o uso na Internet e o acompanhamento do aluno. / This work describes the planing, the development and the validation of a game-like educational software. This multimedia ambient was designed for the study of carbohydrates metabolic pathways and the Krebs's Cycle, called e-Metabolism: carbohydrates, and contains the sequential game, called Virtual Dynamic Metabolic Diagram. The study of pedagogical theories and experiments in classroom with medicine students of the “Fundação Faculdade Federal de Ciências Médicas de Porto Alegre”, pointed the necessity of changes in Biochemistry courses, involving new technologies of information and communication. The use of a game-like software as a tool for teaching is based on experiments related to the use of tray games at Biochemistry courses. The development of the e-Metabolism took as a reference the integrationists’ pedagogical practice, based on Jean Piaget's concepts, related to genetic epistemology and constructivism, yet allowing the professors to choose the teaching method they wish to use. This product integrates multimedia resources extensively, and can be used in computer networks or in the format of a CD-ROM. In the virtual environment students will be able to interact with the environment as well as with classmates and professors through such tools as chats, forums, concept maps and notepads. Software ’s evaluation Instruments were studied and applied with undergraduate students of Biochemistry classes in the way to value the eMetabolism software in its technical aspects and student’s content learning aspects. Conceptual maps, written tests and evaluation of user’s registers realized with this software where used as evaluation instruments of students knowledge. The level of satisfaction was evaluated by a questionnaire, which answers had been analyzed and categorized. The results show that the e-Metabolism is easy to use, awakes the interest and facilitates the study, improving the student performance and can be considered a valid educational instrument. Since this is a dynamic ambient and is constantly actualized, the current version contains the changes suggested by teachers and students, making easier to use it at the Internet and to do a better analysis of the student’s learning. Software educacional Jogo pedagogico Jogo eletrônico Multimídia Biochemistry Educational software Carbohydrate metabolism Krebs' cycle Educational games Multimedia Conceptual maps
23	RNA-binding proteins in yeast mitochondria / RNA-bindende Proteine in Hefemitochondrien Deumer, Claudia D. 06 December 2002 (has links) (PDF) This work focused on the further characterisation of Idhp and of the Krebs cycle enzymes citrate synthase 1 (Cit1p) and malate dehydrogenase 1 (Mdh1p) both of which have been identified as RNA-binding proteins without known RNA recognition motifs. Besides analysing their effects on mitochondrial translation and their organisation in protein complexes the work focused on the characterisation of the RNA-binding properties of recombinant Cit1p and Mdh1p: · Cit1p and Mdh1p play no essential role in mitochondrial protein synthesis. · Idhp is in a complex of molecular weight larger than the cytochrome c oxidase (250 kDa). · Cit1p and Mdh1p are in mitochondrial complexes smaller than 250 kDa. · 1000-fold molar excess of tRNA referring to COX2 leader RNA did not inhibit the RNA-binding of Cit1p and Mdh1p. · Cit1p and Mdh1p bind mitochondrial mRNAs (sense and antisense). The influence of cofactors and substrates on RNA-binding was analysed in order to reveal a possible link between the enzymatic function and the property of RNA-binding: · Acetyl-CoA and ATP inhibited the RNA-binding of Cit1p and Mdh1p at a concentration of 5 mM. Krebszyklusenzyme RNA-Bindung mitochondriale Translation Krebs cycle enzymes RNA-binding mitochondrial translation ddc:32 rvk:WG 1890 Citronensäurezyklus Enzym Hefeartige Pilze Mitochondrium RNS-Bindungsproteine Translation
24	Prostate Cancer Diagnosis : experimental and Clinical Studies With HRMAS NMR Spectroscopy Stenman, Katarina January 2011 (has links) A few abnormal cells found in a small piece of prostate tissue are most consequential for a man’s future. The prevalence of prostate cancer (PCa) is increasing globally. The main instigating factor for this cancer is not yet known, but it appears to be the consequence of many variables such as an increasingly older population, more frequent PSA-testing, and factors involving lifestyle. Prostate cancer screening, as an equivalent for breast cancer screening, has been suggested but unfortunately there are no accurate diagnostic tools available for this type of screening. The reason for this is simply that the prostate is one of the most difficult organs to diagnose and, consequently, PCa screening would generate far too many false-positive and false-negative results. The prostate is not easily accessible as it is deeply-seated in the male pelvic area, wrapped around the urethra and surrounded by sensitive vital organs. Furthermore, PCa is frequently multi-focal, and the cancer cells have a tendency of assimilating among normal cells and, thus, do not always form solid lumps. Therefore, prostate tumors are often not felt by digital rectal examination (DRE) or identified by imaging. The PSA-test is not reliable as it is more prostate-specific than cancer-specific. Due to increasing prostate awareness, more early-stage and locally confined PCa are being detected. This is saving lives, although there is a high risk of over treatment and unnecessary side-effects. The increased detection of PCa requires sophisticated diagnostic methods and highly skilled clinicians who can discern between indolent and aggressive cancers. The current “gold-standard” for PCa diagnosis is biopsy grading by pathologists using the Gleason score system, which is a difficult task. Therefore, innovative methods to improve the precision of prostate diagnosis, by increased biopsy sensitivity and tumor localization, are of essence. In light of these difficulties, the metabolomic approach using 1D and 2D high-resolution magic angle spinning (HRMAS) NMR spectroscopy combined with histopathology on intact prostatectomy specimens was evaluated in this research project. The non-destructive nature of HRMAS NMR enables spectroscopic analysis of intact tissue samples with consecutive histological examinations under light microscope. Metabolomics aids in the unraveling and the discovery of organ-specific endogenous metabolites that have the potential to be reliable indicators of organ function and viability, extrinsic and intrinsic perturbations, as well as valuable markers for treatment response. The results may, therefore, be applied clinically to characterize an organ by utilizing biomarkers that have the capacity to distinguish between disease and health. The aim was to characterize the human and the rat prostate in terms of its intermediary metabolism, which I show here to differ between species and anatomical regions. Furthermore, the aim is to seek the verification of HRMAS NMR derived metabolites which are known to be a part of the prostate metabolome such as, citrate, choline, and the polyamines which were performed, but also the identification of metabolites not previously identified as part of the local prostate metabolism, such as Omega-6, which was detected in tumors. The extended aim was to elucidate novel bio-markers with clinical potential. In this study, the common phyto-nutrient, inositol, which appears to possess protective properties, was identified as being a potentially important PCa bio-marker for the distinction between the more indolent Gleason score 6 and the more aggressive Gleason score 7 in non-malignant prostate tissues with tumors elsewhere in the organ. Further studies in this area of PCa research are therefore warranted. Prostate cancer PCa HRMAS NMR MRSI metabolomics Gleason score citrate inositol choline Krebs cycle PUFA omega-6 omega-3 Diagnostic radiology Diagnostisk radiologi
25	Efeito de intermediários do ciclo de krebs sobre alterações oxidativas induzidas por diferentes agentes oxidantes / Effect of krebs cycle intermediates on oxidative changes induced by different oxidant agents Puntel, Robson Luiz 30 October 2006 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Recent data from the literature have suggested that some Krebs cycle intermediates could act as potent antioxidant agents, both in vitro and in vivo, against a variety of pro-oxidant agents. However, the mechanism(s) involved in the antioxidant effect of Krebs cycle intermediates are not fully understood. Additionally, there are scarce data in the literature taking into account the in vitro effect of Krebs cycle intermediates during oxidative stress conditions. Thus, the aim of this study was to determine the effect of some Krebs cycle intermediates on lipid peroxidation induced in vitro by different pro-oxidant agents, and the mechanism(s) by which they act. Firstly, we investigated the effect and the mechanism(s) by which malonate and quinolinic acid modulate the thiobarbituric acid- reactive species (TBARS) production in vitro, using rat brain S1 preparations (Article 1). The present results showed that the malonate-induced TBARS production was not changed by potassium cyanide or MK-801. However, the pro-oxidant effect of quinolinic acid was significantly prevented by MK-801. In addition we found that malonate was able to form complexes with iron ions (Fe2+), but these complexes were not able to interfere with in vitro deoxyribose degradation assays. Based on the results presented, we conclude that malonate pro-oxidant activity in vitro seems to be independent of the NMDA receptors activity. Additionally, we suggest that the malonate effect, in these conditions, is due to its ability to form complexes with iron ions, thus modulating an adequate ratio Fe2+/Fe3+ that could cause an increase in free radicals generation. In contrast, the quinolinic acid effect seems to be dependent of the NMDA receptors activation. However, we can not rule out the involvement of iron ions in quinolinic acid toxicity under our assay conditions. An other objective of this study was to investigate the effect of some Krebs cycle intermediates on quinolinic acid- or iron (Fe2+)-induced TBARS production in the rat brain S1 preparations, and the mechanism(s) by which they act (Article 2). The results showed that oxaloacetate, citrate, succinate, and malate were able to significantly prevent both basal and quinolinic acid- or iron-induced TBARS production. However, α-ketoglutarate induced per se a significant increase in basal TBARS production. The addition of potassium cyanide or the heat-treatment of S1 at 100ºC during 10 min completely abolished the antioxidant succinate activity, without change the effect of other Krebs cycle intermediates studied. Except for succinate, all intermediates used in this study were able to form complexes with iron (Fe2+) ions, however only oxaloacetate and α-ketoglutarate significantly prevented deoxyribose degradation induced by hydrogen peroxide. Based on the results presented, we concluded that oxaloacetate, malate, succinate, and citrate could act as antioxidants under basal, and under quinolinic acid- or iron- induced TBARS production, whereas α-ketoglutarate act as a pro-oxidant agent per se. The mechanism(s) by which citrate, malate, and oxaloacetate acts seems to be related to their ability to form complexes with iron (Fe2+) ions, thus modulating the iron redox cycle. In contrast, the succinate antioxidant effect seems to be dependent of the succinate dehydrogenase (SDH) activity. / Dados recentes na literatura têm relatado que alguns intermediários do ciclo de Krebs podem agir como potentes antioxidantes, tanto in vitro, quanto in vivo, em diversos sistemas pró-oxidantes. Porém, o(s) mecanismo(s) através dos qual(is) os intermediários do ciclo de Krebs exercem suas atividades antioxidantes não são completamente entendidas. Considerando a escassez de dados in vitro na literatura a respeito do efeito desses intermediários durante situações de estresse oxidativo, o presente trabalho tem como objetivo determinar o efeito de intermediários do ciclo de Krebs sob a peroxidação lipídica induzida por diferentes agentes pró-oxidantes in vitro, bem como investigar o(s) mecanismo(s) de ação dos mesmos. Primeiramente investigamos o efeito e o(s) mecanismo(s) pelo(s) qual(is) o malonato e o ácido quinolínico modulam a produção de espécies reativas ao ácido tiobarbitúrico (TBARS) em S1 de cérebro de ratos, in vitro (artigo 1). Os resultados obtidos mostraram um aumento na produção de TBARS induzido pelo malonato, o qual não foi modificado pela adição de cianeto de potássio, nem pelo MK-801. Por outro lado, o efeito pró-oxidante do ácido quinolínico foi significativamente prevenido pelo MK-801. Observamos ainda que o malonato foi capaz de formar complexos com íons ferrosos e que esses complexos não foram capazes de interferir nos ensaios da degradação da desoxirribose in vitro. Portanto, com base nos resultados encontrados, concluímos que o efeito pró-oxidante do malonato in vitro parece ser independente da atividade dos receptores NMDA. Os resultados sugerem que o efeito do malonato nessas condições deve-se principalmente a sua capacidade de interagir com íons ferro, modulando uma razão Fe2+/Fe3+ que favorece a geração de radicais livres. Por outro lado, o efeito do ácido quinolínico parece ser devido à ativação dos receptores NMDA. Porém, não podemos excluir a participação dos íons ferro para a toxicidade do mesmo nessas condições. Outro foco deste estudo foi investigar o efeito de alguns intermediários do ciclo de Krebs na produção de TBARS induzida por ácido quinolínico ou ferro em S1 de cérebro de ratos in vitro, bem como investigar o(s) mecanismo(s) de ação dos mesmos (artigo 2). Os resultados mostraram que o oxaloacetato, o citrato, o sucinato e o malato foram capazes de reduzir significativamente a produção de TBARS basal, bem como a induzida por ácido quinolínico ou ferro. Por outro lado, o α-cetoglutarato foi capaz de induzir per se um significativo aumento na produção de TBARS. A adição de cianeto de potássio, bem como o pré-tratamento do S1 por 10 min a 100ºC aboliram completamente o efeito antioxidante do sucinato, sem interferir significativamente no efeito dos demais intermediários estudados. Todos os intermediários estudados, exceto o sucinato, foram capazes de quelar íons ferro, porém somente o oxaloacetato e o α-cetoglutarato foram capazes de prevenir a degradação da desoxirribose induzida por peróxido de hidrogênio. Com base nos resultados obtidos, podemos concluir que o oxaloacetato, o malato o sucinato e o citrato agem como antioxidantes sob condições basais ou em presença do ácido quinolínico ou ferro, enquanto que o α-cetoglutarato age como um agente pró-oxidante per se. O mecanismo pelo qual o citrato, o malato e o oxaloacetato exercem seus efeitos antioxidantes parece ser devido à capacidade desses em interagir com íons ferro modulando o ciclo redox desse. Por outro lado, o efeito do sucinato parece ser devido à atividade da enzima succinato desidrogenase (SDH). Intermediários do ciclo de Krebs Malonato Ácido quinolínico Ferro E peroxidação lipídica Krebs cycle intermediates Malonate Quinolinic acid Iron and lipid proxidation CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA
26	Caracterização da atividade pró-oxidante de diferentes agentes e estudo do potencial antioxidante de intermediários do ciclo de krebs sobre alterações oxidativas induzidas in vitro / Effect of krebs cycle intermediates on oxidative changes induced by different oxidant agents Puntel, Robson Luiz 02 May 2008 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Previous data from the literature have shown that some Krebs cycle intermediates could act as antioxidant in several models, both in vitro and in vivo. However, the mechanism(s) involved in the antioxidant effect of Krebs cycle intermediates are not fully understood. Additionally, there are scarce data in the literature taking into account the in vitro effect of Krebs cycle intermediates during oxidative stress conditions. Thus, the aim of this study was to determine the effect of some Krebs cycle intermediates on lipid peroxidation induced in vitro by different pro-oxidant agents, and the mechanism(s) by which they act. Furthermore, it was necessary elucidate the mechanisms by which the different pro-oxidants acts under in vitro conditions. The present results showed that the malonate-induced TBARS production was not changed by potassium cyanide or MK-801. However, the pro-oxidant effect of quinolinic acid was significantly prevented by MK-801. In addition we found that both malonate and oxalate were able to form complexes with iron ions (Fe2+). Based on the presented results, we conclude that malonate pro-oxidant activity in vitro seems to be independent of the secondary excitotoxicity via indirect NMDA receptors activation. Additionally, we suggest that both the malonate and oxalate effect, in these experimental conditions, is due to its ability to form complexes with iron ions, thus modulating an adequate ratio Fe2+/Fe3+ that could cause an increase in free radicals generation. In contrast, the quinolinic acid effect seems to be dependent of the NMDA receptors activation. However, we can not rule out the involvement of iron ions in quinolinic acid toxicity under our assay conditions. Another objective of this study was to investigate the effect of some Krebs cycle intermediates against either basal or induced TBARS production, using rat brain S1 preparations and the mechanism(s) by which they act. The results showed that oxaloacetate, citrate, succinate, and malate were able to significantly prevent both basal and quinolinic acid-, iron- or malonate-induced TBARS production. On the other hand, fumarate prevented only malonate-induced TBARS production, without effect under basal conditions. However, α-ketoglutarate induced per se a significant increase in basal TBARS production. The antioxidant activity of fumarate and succinate were completely abolished when S1 was submitted to heat-treatment at 100ºC during 10 min. Likewise, potassium cyanide completely abolished the antioxidant effect of succinate. The effect of other Krebs cycle intermediates studied was unchanged with respect to heat-treatment, or cyanide. Except for succinate and fumarate, all intermediates used in this study were able to form complexes with iron (Fe2+) ions, however only oxaloacetate and α-ketoglutarate significantly prevented deoxyribose degradation induced by hydrogen peroxide. Based on the results presented, we concluded that oxaloacetate, malate, succinate, fumarate and citrate could act as antioxidants under such conditions, whereas α-ketoglutarate acts as a pro-oxidant agent per se. The mechanism(s) by which citrate, malate, and oxaloacetate acts seems to be related to their ability to form complexes with iron (Fe2+) ions, thus modulating the iron redox cycle. In contrast, the succinate and fumarate antioxidant effect seems to be dependent of the some enzymatic system. / Dados prévios da literatura têm mostrado que alguns intermediários do ciclo de Krebs podem agir como antioxidantes em diversos modelos, tanto in vitro, quanto in vivo. Porém, o(s) mecanismo(s) através dos qual(is) esses intermediários exercem suas atividades antioxidantes não são completamente entendidas. Considerando a escassez de dados na literatura a respeito do efeito dos intermediários do ciclo de Krebs durante situações de estresse oxidativo, o presente trabalho teve por objetivo determinar o efeito desses sob a peroxidação lipídica induzida por diferentes agentes pró-oxidantes in vitro, bem como investigar o(s) mecanismo(s) de ação dos mesmos. Além disso, faz-se necessário caracterizar o(s) mecanismos(s) pelo(s) qual(is) os diferentes pró-oxidantes agem nos sistemas in vitro. Os resultados dessa tese mostraram que a atividade pró-oxidante in vitro do malonato não foi modificada pela adição de cianeto de potássio, nem pelo MK-801. Por outro lado, o efeito pró-oxidante do ácido quinolínico foi significativamente prevenido pelo MK-801. Observamos ainda que o malonato, e também o oxalato foram capazes de formar complexos com íons ferrosos. Portanto, com base nos resultados encontrados, concluímos que o efeito pró-oxidante do malonato in vitro parece ser independente da excitotoxicidade secundária, conseqüência da ativação indireta dos receptores NMDA. Os resultados sugerem que o efeito do malonato e do oxalato nessas condições experimentais deve-se principalmente a sua capacidade de interagir com íons ferro, modulando uma razão Fe2+/Fe3+ que favorece a geração de radicais livres. Por outro lado, o efeito do ácido quinolínico parece ser devido à ativação dos receptores NMDA. Porém, não podemos excluir a participação dos íons ferro para a toxicidade do mesmo nessas condições. Outro foco deste estudo foi investigar o efeito de alguns intermediários do ciclo de Krebs na produção de TBARS basal ou induzida por diferentes pró-oxidantes em S1 de cérebro de ratos in vitro, bem como investigar o(s) mecanismo(s) de ação dos mesmos. Os resultados mostraram que o oxaloacetato, o citrato, o sucinato e o malato foram capazes de reduzir significativamente a produção de TBARS basal, bem como a induzida por ácido quinolínico, ferro ou malonato. O fumarato, por sua vez, teve efeito antioxidante somente sobre a produção de TBARS induzida. Por outro lado, o α-cetoglutarato foi capaz de induzir per se um significativo aumento na produção de TBARS. O efeito antioxidante do fumarato e do sucinato foi completamente abolido quando o S1 foi submetido a um prétratamento por 10 min a 100ºC, enquanto que o efeito dos demais intermediários permaneceu inalterado. Da mesma forma, a adição de cianeto de potássio aboliu completamente o efeito antioxidante do sucinato sem interferir significativamente no efeito dos demais intermediários estudados. Todos os intermediários estudados, exceto o sucinato e o fumarato, foram capazes de quelar íons ferro, porém somente o oxaloacetato e o α- cetoglutarato foram capazes de prevenir a degradação da desoxirribose induzida por peróxido de hidrogênio. Com base nos resultados obtidos, podemos concluir que o oxaloacetato, o malato, o sucinato, o fumarato e o citrato agem como antioxidantes sob determinadas condições, enquanto que o α-cetoglutarato age como um agente pró-oxidante per se. O mecanismo pelo qual o citrato, o malato e o oxaloacetato exercem seus efeitos antioxidantes parece ser devido à capacidade desses em interagir com íons ferro modulando o ciclo redox desse. Por outro lado, o efeito do sucinato e do fumarato parece ser devido a alguma atividade enzimática. Intermediários do ciclo de Krebs Malonato Ácido quinolínico Ferro Oxalato e peroxidação lipídica Krebs cycle intermediates Malonate Quinolinic acid Iron Oxalate and lipid peroxidation CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA
27	RNA-binding proteins in yeast mitochondria Deumer, Claudia D. 09 October 2002 (has links) This work focused on the further characterisation of Idhp and of the Krebs cycle enzymes citrate synthase 1 (Cit1p) and malate dehydrogenase 1 (Mdh1p) both of which have been identified as RNA-binding proteins without known RNA recognition motifs. Besides analysing their effects on mitochondrial translation and their organisation in protein complexes the work focused on the characterisation of the RNA-binding properties of recombinant Cit1p and Mdh1p: · Cit1p and Mdh1p play no essential role in mitochondrial protein synthesis. · Idhp is in a complex of molecular weight larger than the cytochrome c oxidase (250 kDa). · Cit1p and Mdh1p are in mitochondrial complexes smaller than 250 kDa. · 1000-fold molar excess of tRNA referring to COX2 leader RNA did not inhibit the RNA-binding of Cit1p and Mdh1p. · Cit1p and Mdh1p bind mitochondrial mRNAs (sense and antisense). The influence of cofactors and substrates on RNA-binding was analysed in order to reveal a possible link between the enzymatic function and the property of RNA-binding: · Acetyl-CoA and ATP inhibited the RNA-binding of Cit1p and Mdh1p at a concentration of 5 mM. info:eu-repo/classification/ddc/32 ddc:32
28	Superoxide Dismutase 2 Overexpression Attenuates Effects of Ischemia Reperfusion-Induced Mitochondrial Dysfunction Lin, Paul P. 03 October 2017 (has links) No description available. Biology Superoxide SOD2 MnSOD Heart Heart Mitochondria Mitochondria Electron transport chain Antioxidant Ischemia Reperfusion IR Krebs Cycle Catalase Glutathione Peroxidas Oxidative Stress
29	Úloha mitochondrií v adaptaci na chronickou hypoxii u spontánně hypertenzních a konplastických potkanů / The role of mitochondria in adaptation to chronic hypoxia in the spontaneously hypertensive and conplastic rats. Weissová, Romana January 2013 (has links) Adaptation to chronic hypoxia provides cardioprotective effects. Molecular mechanism of this phenomenon is not yet completely understood, but it is known that cardiac mitochondria play an essential role in induction of protective effects. The purpose of this diploma thesis is to study effects of continuous normobaric hypoxia (CNH; 10 % O2, 21 days) on spontaneously hypertensive rats (SHR) and conplastic strain that is derived from SHR. These animals have nuclear genome of SHR strain and mitochondrial genome of Brown Norway (BN) strain. Cardiac homogenate was used to measure enzymatic activity of malate dehydrogenase (MDH), citrate synthase (CS), NADH-cytochrome c oxidoreductase, succinate-cytochrome c oxidoreductase and cytochrome oxidase (COX). Using Western blot procedure the protein amount of antioxidant enzymes was measured - manganese superoxide dismutase and copper-zinc superoxide dismutase (MnSOD, Cu/ZnSOD), catalase and chosen subunits of oxidative phosphorylation complexes (Ndufa9, Sdha, Uqcrc2, COX-4, MTCO1, Atp5a1). Under normoxic conditions the conplastic strain has lower amount of complex IV subunit MTCO1 in comparison with SHR. This subunit is encoded by mitochondrial DNA and it is one of the seven protein-coding genes in conplastic strain that differ from SHR. Adaptation to hypoxia causes an...
30	Quantifying metabolic fluxes using mathematical modeling / Kvantifiering av metabola flöden genom matematisk modellering Viberg, Victor January 2018 (has links) Background Cancer is one of the leading causes of death in Sweden. In order to develop better treatments against cancer we need to better understand it. One area of special interest is cancer metabolism and the metabolic fluxes. As these fluxes cannot be directly measured, modeling is required to determine them. Due to the complexity of cell metabolism, some limitations in the metabolism model are required. As the TCA-cycle (TriCarboxylic Acid cycle) is one of the most important parts of cell metabolism, it was chosen as a starting point. The primary goal of this project has been to evaluate the previously constructed TCA-cycle model. The first step of the evaluation was to determine the CI (Confidence Interval) of the model parameters, to determine the parameters’ identifiability. The second step was to validate the model to see if the model could predict data for which the model had not been trained for. The last step of the evaluation was to determine the uncertainty of the model simulation. Method The TCA-cycle model was created using Isotopicaly labeled data and EMUs (ElementaryMetabolic Units) in OpenFlux, an open source toolbox. The CIs of the TCA-cycle model parameters were determined using both OpenFlux’s inbuilt functionality for it as well as using amethod called PL (Profile Likelihood). The model validation was done using a leave one out method. In conjunction with using the leave on out method, a method called PPL (Prediction Profile Likelihood) was used to determine the CIs of the TCA-cycle model simulation. Results and Discussion Using PL to determine CIs had mixed success. The failures of PL are most likely caused by poor choice of settings. However, in the cases in which PL succeeded it gave comparable results to those of OpenFLux. However, the settings in OpenFlux are important, and the wrong settings can severely underestimate the confidence intervals. The confidence intervals from OpenFlux suggests that approximately 30% of the model parameters are identifiable. Results from the validation says that the model is able to predict certain parts of the data for which it has not been trained. The results from the PPL yields a small confidence interval of the simulation. These two results regarding the model simulation suggests that even though the identifiability of the parameters could be better, that the model structure as a whole is sound. Conclusion The majority of the model parameters in the TCA-cycle model are not identifiable, which is something future studies needs to address. However, the model is able to to predict data for which it has not been trained and the model has low simulation uncertainty. Metabolic Flux Analysis OpenFlux carbon thirteen Uncertainty Analysis Cytoscape Cancer TCA-cycle flux rate metabolic reactions systems biology mathematical modeling krebs cycle model validation Other Medical Engineering Annan medicinteknik

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