Global ETD Search

51	Etude biophysique, structurale et fonctionnelle d'une protéine à cuivre issue de la bactérie acidophile Acidithiobacillus ferrooxidans / Biophysical, structural and functional study of a copper-binding protein from Acidithiobacillus ferrooxidans, an acidophile organism. Roger, Magali 29 April 2015 (has links) Les protéines à cuivre jouent un rôle crucial dans de nombreux processus biologiques essentiels à la vie tels que la respiration. De nombreuses études ont été menées afin de décrypter le lien entre la structure de leur centre actif, les propriétés électroniques qui en découlent et la fonction de ces protéines.Les travaux réalisés au sein du laboratoire sur l’étude de la chaîne respiratoire d’un organisme acidophile, A. ferrooxidans, ont permis de mettre en évidence une protéine à cuivre (AcoP), appartement à la vaste famille des cuprédoxines, indispensable au fonctionnement de cette voie. Une approche pluridisciplinaire mêlant des méthodes de spectroscopies, d’électrochimie, de cristallographie aux rayons X combinée à des expériences de mutagénèse dirigée, a permis de dévoiler la présence d’un centre cuivre atypique associé à des propriétés électroniques et d’oxydoréduction rarement retrouvées au sein de cette vaste famille. Le rôle d’une telle protéine au sein de la chaîne respiratoire d’A. ferroxidans a par la suite fait l’objet de notre attention. AcoP interagit avec le cytochrome c et l’enzyme terminale de la chaîne respiratoire, la cytochrome c oxydase. L’étude du complexe cytochrome c – AcoPcytochrome c oxydase nous a permis de proposer un rôle d’AcoP dans le recrutement du cytochrome c au sein de ce complexe, ainsi que dans le transfert d’électron entre ces deux partenaires. Ces travaux de recherche démontrent que l’étude de la biodiversité permet non seulement la découverte de nouveaux systèmes permettant la vie dans des environnements extrêmes, mais également la découverte de nouvelles protéines aux propriétés remarquables. / Copper proteins play key roles in many biological processes, such as in respiratory chains. Although many studies have been carried out to decipher the relationship between their active site structure, electronic properties and function, these features are still not fully understood. Previous studies on the respiratory chain of an acidophilic organism, Acidithiobacillus ferrooxidans, have revealed the presence of a new copper-binding protein: AcoP. This cupredoxin is critical for the correct functioning of this respiratory pathway. Using site-directed mutagenesis and a wide-range of biophysical approaches, electrochemistry and X-ray crystallography, we can show that an unconventional copper-active site in AcoP might underlie its rare electronic and redox features. The function of such a protein in the respiratory chain of A. ferrooxidans has subsequently raised our curiosity. It was shown that AcoP interacts with cytochrome c and the cytochrome c oxidase. We showed that AcoP could act as a linker between the cytochrome c and the cytochrome c oxidase, by recruiting the former, and could also participate in the electron transfer between these two partners. This work shows how exploring biodiversity leads to the discovery of new systems that allow life in extreme environments, as well as of new proteins with remarkable features. Acidithiobacillus ferrooxidans Cytochrome c oxydase Cuprédoxine Centre cuivre T1 Spectroscopie Chaîne respiratoire Acidithiobacillus ferrooxidans Cytochrome c oxidase Cupredoxin T1 copper-Center Spectroscopy Respiratory chain
52	Fuzzy klasifikace DNA sekvencí / Fuzzy classification of DNA sequences Těthal, Jiří January 2013 (has links) The work deals with the fuzzy classification of DNA sequences. In the first part the theory summarized information about Fuzzy logic and methods of its use in the classification of biological sequence data. The second part is practically deal with the classification algorithm for assessing the similarity of sequences. Specifically, the dividing of coding and non-coding parts of the sequence and the use of fuzzy classification in DNA barcoding.
53	Studium poruch cytochrom c oxidasy a ATP synthasy na biochemické a molekulární úrovni / Biochemical and molecular studies of cytochrome c oxidase and ATP synthase deficiencies Fornůsková, Daniela January 2011 (has links) Mgr. Daniela Fornuskova PhD thesis Biochemical and molecular studies of cytochrome c oxidase and ATP synthase deficiencies ABSTRACT The mammalian organism fully depends on the oxidative phosphorylation system (OXPHOS) as the major energy (ATP) producer of the cell. Disturbances of OXPHOS may be caused by mutations in either mitochondrial DNA (mtDNA) or nuclear DNA (nDNA). One part of the thesis is focused on the role of early and late assembled nuclear-encoded structural subunits of cytochrome c oxidase (CcO) as well as Oxa1l, the human homologue of the yeast mitochondrial Oxa1 translocase, in the biogenesis and function of the human CcO complex using stable RNA interference of COX4, COX5A, COX6A1 and OXA1L, as well as expression of epitope-tagged Cox6a, Cox7a and Cox7b, in HEK (human embryonic kidney)- 293 cells. Our results indicate that, whereas nuclear- encoded CcO subunits Cox4 and Cox5a are required for the assembly of the functional CcO complex, the Cox6a subunit is required for the overall stability of the holoenzyme. In OXA1L knockdown HEK-293 cells, intriguingly, CcO activity and holoenzyme content were unaffected, although the inactivation of OXA1 in yeast was shown to cause complete absence of CcO activity. In addition, we compared OXPHOS protein deficiency patterns in mitochondria from skeletal...
54	Genetické příčiny deficitu cytochrom c oxidázy u dětí / Genetické příčiny deficitu cytochrom c oxidázy u dětí Vondráčková, Alžběta January 2014 (has links) Mitochondria are the key source of vital ATP molecules, which are largely produced within cells by a system of oxidative phosphorylation (OXPHOS). Genetic defects affecting any of the components of the oxidative phosphorylation system or the structure and function of mitochondria lead to mitochondrial disorders, which occur at an incidence rate of 1 in 5000 live births. Cytochrome c oxidase (COX) is the terminal enzyme and electron acceptor of a respiratory chain that catalyses oxygen to produce a water molecule. In addition to complex I deficiency, isolated or combined COX deficiency is the most common respiratory chain defect in paediatric patients, and it can arise from mutations located either in mitochondrial DNA or in nuclear genes encoding the structural subunits or corresponding assembly factors of the enzyme complex. However, the molecular basis of COX deficiency remains elusive in many patients despite advances in the identification of an increasing number of mutations and genes involved in the disease. This thesis focuses on the identification of the genetic causes of mitochondrial diseases in a cohort of 60 unrelated Czech children with clinically and laboratory confirmed COX-deficiency. With the use of a high-resolution melting analysis mutation screen, four heterozygous sequence...
55	Investigating the Role of Subunit III in the Structure and Function of Rhodobacter Sphaeroides Cytochrome C Oxidase Geyer, R. Ryan 31 July 2007 (has links) No description available. Chemistry, Biochemistry membrane protein limited proteolysis site-directed mutagenesis mass spectrometry heme protein cytochrome c oxidase stopped flow spectroscopy absorbance spectroscopy
56	L'application de la métabolomique à la découverte de nouveaux biomarqueurs chez les patients atteints d'acidose lactique Thompson Legault, Julie 04 1900 (has links) L’acidose lactique du Saguenay-Lac-St-Jean, ou syndrome de Leigh de forme canadienne-française (LSFC), est une maladie mitochondriale neurodégénérative causée par des mutations du gène LRPPRC et caractérisée par des crises d’acidose menant au décès en bas âge. On ne comprend pas encore les causes exactes de ces crises, et aucun traitement n’est actuellement disponible. L’objectif de cette étude a été de comparer le profil des métabolites sanguins et urinaires chez des sujets LSFC et des témoins, avant et après un repas, par une approche métabolomique ciblée. Le projet s’inscrit dans une démarche à long terme visant l’identification de biomarqueurs prédictifs des crises, permettant d'intervenir plus rapidement afin d’éviter le décès. Les échantillons biologiques ont été prélevés chez 9 sujets atteints du LSFC et 9 témoins appariés, à jeun et 90 minutes après un repas standardisé. Les analyses incluent un bilan biochimique et hormonal, un profil des acides aminés, des acides gras, des acides organiques et des acylcarnitines. Les métabolites significativement modifiés chez les patients peuvent être classés en deux catégories : (i) le reflet d’une dysfonction mitochondriale, et plus particulièrement de l’accumulation d’équivalents réduits en amont de la chaîne respiratoire, et (ii) des indices de risque cardiométabolique, qui s’observent davantage chez les patients adultes malgré leur jeune âge. Ainsi, il serait intéressant d’inclure au traitement des stratégies visant la diminution des facteurs de risque cardiométabolique, notamment par une modification des habitudes de vie. Notre étude démontre la pertinence d’avoir recours à la métabolomique dans l’étude des désordres de la phosphorylation oxydative. / L’acidose lactique du Saguenay-Lac-St-Jean, ou syndrome de Leigh de forme canadienne-française (LSFC), est une maladie mitochondriale neurodégénérative causée par des mutations du gène LRPPRC et caractérisée par des crises d’acidose menant au décès en bas âge. On ne comprend pas encore les causes exactes de ces crises, et aucun traitement n’est actuellement disponible. L’objectif de cette étude a été de comparer le profil des métabolites sanguins et urinaires chez des sujets LSFC et des témoins, avant et après un repas, par une approche métabolomique ciblée. Le projet s’inscrit dans une démarche à long terme visant l’identification de biomarqueurs prédictifs des crises, permettant d'intervenir plus rapidement afin d’éviter le décès. Les échantillons biologiques ont été prélevés chez 9 sujets atteints du LSFC et 9 témoins appariés, à jeun et 90 minutes après un repas standardisé. Les analyses incluent un bilan biochimique et hormonal, un profil des acides aminés, des acides gras, des acides organiques et des acylcarnitines. Les métabolites significativement modifiés chez les patients peuvent être classés en deux catégories : (i) le reflet d’une dysfonction mitochondriale, et plus particulièrement de l’accumulation d’équivalents réduits en amont de la chaîne respiratoire, et (ii) des indices de risque cardiométabolique, qui s’observent davantage chez les patients adultes malgré leur jeune âge. Ainsi, il serait intéressant d’inclure au traitement des stratégies visant la diminution des facteurs de risque cardiométabolique, notamment par une modification des habitudes de vie. Notre étude démontre la pertinence d’avoir recours à la métabolomique dans l’étude des désordres de la phosphorylation oxydative. LSFC LRPPRC Acidose lactique Mitochondrie Cytochrome c oxydase Métabolomique Acides aminés Acides gras Acides organiques Acylcarnitines Lactic acidosis Mitochondria Cytochrome c oxidase Metabolomics Amino acids Fatty acids Organic acids
57	Taxonomia integrativa de espécies, com fêmeas morfologicamente similares, do gênero Psychodopygus (Diptera, Psychodidae), Série Chagasi, registradas no Brasil / Integrative taxonomy of morphologically indistinguishable species of the genus Psychodopygus (Diptera, Psychodidae), Chagasi series, registered in Brazil Godoy, Rodrigo Espíndola 25 June 2018 (has links) Introdução. A identificação dos flebotomíneos baseia-se principalmente na morfologia do adulto, o que pode ser problemático quando as espécies são morfologicamente muito semelhantes. Psychodopygus é um gênero de flebotomíneos de grande interesse em saúde pública devido ao papel de algumas espécies na veiculação de Leishmania spp. no Brasil. No entanto, este gênero inclui espécies com fêmeas morfologicamente indistinguíveis que pertencem à Série Chagasi, sendo elas: P. chagasi, P. complexus, P. squamiventris maripaensis, P. squamiventris squamiventris e P. wellcomei. Objetivos. Investigar a possibilidade de distinguir essas espécies por meio de análises morfométrica e molecular, além de produzir uma distribuição geográfica atualizada para o grupo analisando a probabilidade de ocorrência das espécies através da análise de modelagem de nicho ecológico. Material e Métodos. Foi realizada a análise discriminante na morfometria geométrica (cabeça e asa) e linear, morfologia (usando microscopia óptica e eletrônica de varredura) e a análise do citocromo c oxidase subunidade 1 (COI), avaliando-se um total de 752 espécimes (460 fêmeas e 292 machos) dos seguintes estados Amapá, Amazonas, Ceará, Mato Grosso, Pará, Rondônia, Roraima e Tocantins. Mapas de distribuição foram produzidos através de dados obtidos do material analisado e de revisão bibliográfica. Resultados. A análise discriminante usando caracteres morfométricos lineares mostrou-se capaz de diferenciar todas as espécies, exceto P. complexus, que apresentou 2,2% de erro de identificação. A morfometria geométrica das asas foi incapaz de separar completamente as espécies através da conformação, mas o tamanho do centróide dos espécimes fêmeas falhou apenas em distinguir P. complexus de P. s. maripaensis. Por outro lado, a morfometria geométrica das cabeças foi capaz de distinguir todas as espécies com grande eficiência ao usar tanto a forma como o tamanho do centróide. A análise morfológica revelou que a coloração torácica, principalmente do pronoto e do pós-noto, pode ser usada para separar as cinco espécies em três grupos: P. chagasi, P. wellcomei / P. complexus e P. s. mariapaensis / P. s. squamiventris. Os resultados da análise de DNA Barcoding, mostraram um agrupamento semelhante ao observado na morfologia; embora os espécimes de P. wellcomei do estado do Ceará mostrem uma grande distância genética da população do estado do Pará, evidenciando que essa espécie possa representar um complexo. Quanto à microscopia eletrônica de varredura, foram avaliadas detalhadamente as estruturas das antenas, tórax e genitália masculina. Salientamos que no anepímero (tórax) foi observada uma escama tipo \"raquete\" modificada apenas em Psychodopygus s. squamiventris. A revisão da distribuição geográfica mostrou que as espécies possuem uma distribuição cis-andina, ocorrendo principalmente no bioma Amazônico. A nítida separação de algumas espécies pelo rio Amazonas, sugere que o surgimento do grupo ocorreu no período que se estende da orogênese dos Andes até a formação deste rio. Conclusões. O estudo possibilitou diferenciar completamente as fêmeas das cinco espécies da Série Chagasi utilizando o conjunto de dados obtidos por morfometria linear e geométrica e análises morfológicas e também apresentar novos caracteres morfológicos e padrões distribucionais que facilitarão a identificação de machos e fêmeas dessas espécies. / Introduction. The identification of sand flies is mainly based on adult morphology, which can be problematic when species are morphologically very similar. Psychodopygus is one of the sand fly genera of great interest in public health, due to the role of some species in the transmission of Leishmania spp. in Brazil. However, this genus includes species with morphologically indistinguishable females that belong to the Chagasi series, which includes: P. chagasi, P. complexus, P. squamiventris maripaensis, P. squamiventris squamiventris and P. wellcomei. Objectives. To investigate the possibility of distinguishing among these species by means of morphometric and molecular analyses in addition to producing an updated geographical distribution for the group, analyzing the probability of the occurrence of the species by the analysis of ecological niche modeling. Material and methods. The analyses of the cytochrome c oxidase subunit 1 (COI), geometrical (head and wing) and of linear morphometry and morphology (using optical microscopy and scanning electron microscopy) were carried out using a total of 752 specimens (460 females and 292 males) from the following states: Amapá, Amazonas, Ceará, Mato Grosso, Pará, Rondônia, Roraima e Tocantins. Distribution maps were produced on the basis of data obtained from the material analyzed and a bibliographical review. Results. The discriminant analysis using linear morphometric characters was able to differentiate among all the species, except for P. complexus, which presented a 2.2% error of identification. The geometric morphometry of the wings was unable to completely separate the species by means of the shape analyses, but the centroid size of the female specimens only failed to distinguish P. complexus from P. s. maripaensis. Otherwise, the geometric morphometry of the heads was sufficient to distinguish all the species with great efficiency, when using both the head-shape and the centroid size. The morphological analysis revealed that the thoracic coloration, mainly of the pronotum and the post-notum, can be used to separate the five species into three groups: P. chagasi, P. wellcomei / P. complexus, P. s. mariapaensis / P. s. squamiventris. The results of the Barcoding DNA analyses showed a cluster similar to that observed in the morphology; however, P. wellcomei specimens from the Ceará population showed a great genetic distance from the population of Pará, evidencing that this species may represent a complex. As for the scanning electron microscopy, the structures of the antennae, thorax and male genitalia were evaluated in detail. In the anepimerum (thorax) a modified \"racket\"-type scale was observed only in Psychodopygus s. squamiventris. The review of the geographical distribution showed that the species have a cis-Andean distribution, occurring mainly in the Amazonian biome. The separation of some species from the others by the Amazon river suggests that the appearance of the Chagasi series occurred in the period from the orogenesis of the Andes to the formation of this river. Conclusions. The results clearly differentiate the females of the five species of the Chagasi series using the data set of linear and geometric morphometry and morphological analyses, providing new morphological and distributional data that will facilitate the identification of the males and females of this group. Análise Discriminante Chagasi Series Distribution Citocromo C Oxidase Subunidade 1 Cytochrome C Oxidase Subunit 1 Discriminant Analyses Distribuição da Série Chagasi Ecological Niche Modelling Flebotomíneos Linear and Geometric Morphometry Modelagem de Nicho Ecológico Morfometria Linear e Geométrica Padrão de Pigmentação Pigmentation Pattern Sand Fly
58	Contribution à l’étude de la régulation des complexes respiratoires par la phosphorylation chez Saccharomyces cerevisiae : -Etude générale du protéome et du phosphoprotéome mitochondrial selon le métabolisme -Cas particulier de deux sous-unités du complexe cytochrome c oxydase / Contribution to the Study of Regulation of Respiratory Complexes by Phosphorylation in Saccharomyces cerevisiae : -General Proteomic and Phosphoproteomic Analysis of Mitochondria According to Metabolism -Particular Study of two Subunits of Complex Cytochrome c Oxidase Renvoisé, Margaux 13 October 2014 (has links) La phosphorylation oxydative est un processus majeur du métabolisme énergétique qui est catalysée par les enzymes de la chaîne respiratoire (OXPHOS), localisées dans la membrane interne des mitochondries. Sa dérégulation est souvent associée à des pathologies, par exemple aux maladies mitochondriales et neurodégénératives. La régulation de la phosphorylation oxydative par la phosphorylation reste encore peu comprise et peu étudiée. Pourtant, la phosphorylation est une des modifications post-traductionnelles les plus répandues dans la cellule, régulant de nombreux aspects de la vie cellulaire et dont l’altération est associée à des pathologies au niveau cellulaire (Alzheimer, Parkinson, cancer). Concernant la phosphorylation oxydative, il est à noter que quelques sites de phosphorylation des complexes respiratoires, en particulier du complexe IV, ont été montrés comme ayant un effet sur leur stabilité et/ou leur activité. Toutefois la connaissance du phosphoprotéome mitochondrial n’est pas suffisamment documentée à ce jour pour identifier les différents rôles que pourraient jouer la phosphorylation au niveau de la mitochondrie et en particulier, de la chaîne respiratoire. Dans la première partie de la thèse, nous nous sommes intéressés à l’analyse du phosphoprotéome mitochondrial de Saccharomyces cerevisiae dans trois conditions de culture : respiratoire (YLAC), respiro-fermentaire (YPGalA) et fermentaire (YPGA). Nous avons quantifiés près de 300 sites de phosphorylation dans la mitochondrie, dont 90 ont un niveau de phosphorylation variable selon le substrat. Les données que nous avons obtenues constituent une base pour l’analyse de la phosphorylation mitochondriale et de la compréhension de son mécanisme. Les sites de phosphorylation de la voie métabolique énergie sont ceux présentant le plus de variation de leur niveau de phosphorylation. La localisation des résidus phosphorylés sur la structure des complexes respiratoires nous a permis d’émettre des hypothèses sur le rôle de ces résidus. Afin de normaliser la quantité des résidus phosphorylés dans les trois conditions de culture, nous avons aussi quantifié le protéome mitochondrial dans les trois conditions de culture. Ceci nous a permis d’argumenter en faveur d’un métabolisme respiro-fermentaire en YPGalA, question encore largement discutée à ce jour. Enfin, cette première étude quantitative du protéome et phosphoprotéome mitochondrial constitue une avancée dans l’étude de la régulation de la mitochondrie par la phosphorylation. Elle peut notamment apporter des informations applicables à l’étude du cancer : en effet, les cellules saines ont un métabolisme respiratoire tandis que les cellules tumorales, dérégulées, ont un métabolisme fermentaire. La seconde partie de la thèse concerne l’analyse du rôle de deux sous-unités du complexe IV de la chaîne respiratoire : les sous-unités Cox12p et Cox13p, encore peu étudiées à ce jour. De plus, deux sites de phosphorylation ont été identifiés sur la sous-unité Cox12p. Dans un premier temps, nous nous sommes intéressés au rôle de ces sous-unités, notamment au niveau de l’assemblage et de l’activité du complexe IV, en analysant des mutants Δcox12, Δcox13 et Δcox12Δcox13. Dans un deuxième temps, nous nous sommes intéressés au rôle des deux sites de phosphorylation de Cox12p : Ser7 et ser82. Nous avons généré les mutants phosphomimétiques de ces deux résidus et étudié leurs effets sur la stabilité et/ou l’activité du complexe IV. Cette seconde étude nous a notamment permis d’identifier un rôle de Cox12p sur la stabilité du complexe et un rôle de Cox13p dans sa dimérisation. La phosphorylation de Cox12p au niveau de la Ser7 semble aussi déstabiliser le complexe IV. De plus, la phosphorylation de la Ser7 et de la Ser82 semblent influencer l’interaction du cytochrome c avec le complexe IV. Cette hypothèse reste à vérifier mais est pertinente du fait de la proximité de Cox12p avec Cox2p, qui porte le lieu de fixation du cytochrome c. / Mitochondria are the powerhouses of cells, providing energy in the form of adenosine triphosphate (ATP). The synthesis of ATP is achieved by oxidative phosphorylation (OXPHOS), a process catalyzed by the respiratory chain, which is located in the inner membrane of mitochondria. Deregulation of OXPHOS is often associated to diseases. Deregulation is particularly observed in mitochondrial diseases and neurodegenerative diseases, but regulation of respiration by phosphorylation is still poorly understood.However, phosphorylation is one of the most frequent post-translational modifications in the cell, modulating most processes, and defects at a cellular level are observed in some diseases (Alzheimer, Parkinson, cancer). Moreover, some phosphorylation sites have been identified in the respiratory complexes, particularly in the complex IV; some of them have an effect on the stability and/or activity of the complex, but we still lack a comprehensive study about mitochondrial phosphoproteome. Such analysis would be necessary to extend the role of phosphorylation in the regulation of mitochondrial functions in general, and in the regulation of the respiratory chain in particular.In the first part of this thesis, we focused on the analysis of the mitochondrial phosphoproteome of Saccharomyces cerevisiae. We studied the mitochondrial phosphoproteome in three growth conditions: in the respiratory condition (YLAC), in the fermentable condition (YPGA) and in an intermediate one (YPGalA). We quantified around 300 mitochondrial phosphorylation sites in which 90 displayed a different level of phosphorylation according to the substrate. This study is a first step towards understanding mitochondrial phosphorylation and its mechanism. Phosphorylation sites with varying levels of phosphorylation according to their conditions are mostly located on proteins involved in energy metabolism. We localized the phosphosites on the structure of the respiratory complexes when it was possible. This allowed us to make hypotheses on the role of these residues. In order to normalize the quantity of phosphorylation sites in the three growth conditions, we also studied the mitochondrial proteome in the three conditions. These results helped us to understand the energetic metabolism of galactose, which is surely intermediate between respiration and fementation, a question still debated nowadays.Finally this proteomic and phosphoproteomic study is a step forward in the comprehension of regulation of mitochondria by phosphorylation. These results can be used as a model to study cancer cells because they display a deregulation in the energetic metabolism: normal cells display respiratory metabolism whereas cancer cells exhibit fermentable metabolism.The second part of this thesis was the study of two subunits of complex IV of the respiratory chain: Cox12p and Cox13p, which had been poorly studied. Moreover, two phosphorylation sites had been identified in the subunit Cox12p. First we were interested in the role of these two proteins, thus we compared the mitochondria of mutants Δcox12, Δcox13 et Δcox12Δcox13 with wild-type mitochondria. We particularly focused on the assembly and the activity of complex IV. Secondly, we analyzed the role of the two phosphosites of Cox12p: Ser7 and Ser82. We generated phosphomimetic mutants of these two residues and observed their effects on the stability and/or activity of complex IV.All of these results allowed us to identify a role of Cox12p in the stability of complex IV and a role of Cox13p in the dimerization of complex IV. Phosphorylation of Ser7 of Cox12p seemed to destabilize the complex. Moreover phosphorylation of both Ser7 and Ser82 of Cox12p seemed to modify the interaction between cytochrome c and complex IV; this hypothesis remains to be tested but is relevant according to the proximity between Cox12p and the subunit Cox2p, where the cytochrome c interacts. Protéome Phosphoprotéome Métabolisme carboné Saccharomyces cerevisiae Mitochondrie OXPHOS Cytochrome c oxydase Modifications post-traductionnelles Phosphorylation Proteome Phosphoproteome Carbon metabolism Saccharomyces cerevisiae Mitochondria OXPHOS Cytochrome c oxidase Post-translational modifications Phosphorylation
59	Identification des intermédiaires de la réduction du dioxygène par la cytochrome c oxydase et ses modèles en faisant appel à la spectroscopie IR différentielle / Identification of the oxygen reaction intermediates of cytochrome c oxydase and its models by differential infrared spectroscopy Oueslati, Nesrine 06 July 2012 (has links) La cytochrome c oxydase (CcO) est un complexe protéique commun à tous les organismes aérobies. Elle catalyse la réduction de l’oxygène en eau au niveau d’un site catalytique qui contient un atome de fer hémique et un atome de cuivre (CuB). La famille de ces oxydases est ainsi appelée super famille des oxydases à "hème-cuivre". Malgré le grand nombre d’études réalisées au sujet de l’activité catalytique des CcO, le déroulement exact des étapes de leur mécanisme reste encore mal connu. Afin de mieux cerner le problème de la relation structure-activité de cette hémoprotéine, deux approches distinctes et complémentaires ont été abordées : l’étude du système naturel et l’approche biomimétique. Les propriétés électroniques et vibrationnelles de certains intermédiaires du cycle catalytique de la cytochrome c oxydase ont été caractérisées par spectroscopies UV-Visible, de fluorescence résolue en temps et infrarouge. L’analyse du site actif de la CcO par des substitutions isotopiques du CuB, ainsi que l’influence du pH sur la structure de cet enzyme sont discutées. La deuxième partie de ce travail concerne l’étude du rôle de l’environnement proche de l’hème sur la réactivité des complexes FeII-CO et FeII-O2 grâce à une série de modèles superstructurés du centre binucléaire Fe/Cu de la CcO. Ces analogues synthétiques conservent l’hème, la ligation fer-histidine du site proximal et le ligand complexant le cuivre du site distal de la CcO, mais se différencient notamment par leur environnement autour de l’atome de cuivre et par leur rigidité. Deux techniques ont été utilisées: la spectroscopie ATR-IRTF et la photochimie dans le cas d’espèces carbonylées. / Cytochrome c Oxidase (CcO), a member of the heme-copper oxidase superfamily, is a membrane protein in many aerobic organisms, that catalyses the reduction of dioxygen to water. Dioxygen binding and reduction occurs at a heterobinuclear site that is comprised of a heme a3, and a copper atom (CuB) in close proximity. Despite, the CcO has been the subject of numerous biophysical and spectroscopic investigations, the detailed molecular mechanism of CcO remains still elusive. In order to better define the structure-function relationship for this hemoprotein, two distinct and complementary approaches have been employed: the study of the natural system and the biomimetic approach.Structural changes accompanying the change in the redox state of some CcO intermediates have been characterised by UV-Visible, ATR-FTIR and time-resolved fluorescence spectroscopies. The study of the cytochrome c oxydase active site modified with isotopic substitutions of CuB, and the effect of pH on the structure are discussed. The second part of this work is related to study the role of environment on the reactivity of FeII-CO et FeII-O2 complexes by exploiting a series of superstructured models of the binuclear Fe/Cu active site of CcO. Based upon a porphyrin core, all these models have the iron-histidine ligation of the proximal site and the copper ligand of the distal site of CcO but they differ strongly by the environment around the copper and their rigidity. Cytochrome C oxydase Modèles bimimétiques Intermédiaires réactionnels Complexe fer oxygène Monoxyde de carbone Spectroscopie IRTF Vibrations métal-ligands Cytochrome c oxidase Biomimetic models Reactionnal intermediates Iron-oxygen complex Carbon monoxide FTIR spectroscopy Metal-ligands vibrations 543
60	Proton pathways in energy conversion : K-pathway analogs in O2- and NO-reductases Gonska, Nathalie January 2017 (has links) Oxygen and nitric oxide reductases are enzymes found in aerobic and anaerobic respiration, respectively. Both enzyme groups belong to the superfamily of Heme-Copper Oxidases, which is further divided into several subgroups: oxygen-reducing enzymes into A-, B- and C-type and nitric oxide reductases into qNORs and cNORs. Oxygen reducing enzymes use the energy released from oxygen reduction to take up electrons and protons from different sides of the membrane. Additionally, protons are pumped. These processes produce a membrane potential, which is used by the ATP-synthase to produce ATP, the universal energy currency of the cell. Nitric oxide reductases are not known to conserve the energy from nitric oxide reduction, although the reaction is highly exergonic. Here, the detailed mechanism of a B-type oxidase is studied with special interest in an element involved in proton pumping (proton loading site, PLS). The study supports the hypothesis that the PLS is protonated in one and deprotonated in the consecutive step of the oxidative catalytic cycle, and that a proton is pumped during the final oxidation phase. It further strengthens the previous suggestion that the PLS is a cluster instead of a single residue or heme propionate. Additionally, it is proposed that the residue Asp372, which is in vicinity of the heme a3 propionates previously suggested as PLS, is part of this cluster. In another study, we show that the Glu15II at the entry of the proton pathway in the B-type oxidase is the only crucial residue for proton uptake, while Tyr248 is or is close to the internal proton donor responsible for coupling proton pumping to oxygen reduction. The thesis also includes studies on the mechanism and electrogenicity of qNOR. We show that there is a difference in the proton-uptake reaction between qNOR and the non-electrogenic homolog cNOR, hinting at a different reaction mechanism. Further, studies on a qNOR from a different host showed that qNOR is indeed electrogenic. This surprising result opens up new discussions on the evolution of oxygen and nitric oxide reductases, and about how energy conservation can be achieved. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Manuscript.</p> heme-copper oxidase cytochrome c oxidase membrane protein respiration electron transfer proton transfer redox reaction metalloprotein non-heme iron cytochrome ba3 flow-flash carbon monoxide liposome respiratory control ratio Biochemistry and Molecular Biology Biokemi och molekylärbiologi

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