Global ETD Search

21	Respiratory and photosynthetic C and N metabolism of nodulated Lupin roots during phosphorus deficiency Le Roux, Marcellous R January 2010 (has links) Philosophiae Doctor - PhD / Growth of symbiotic legume hosts is P limited, because of the high energetic requirements associated with N2 fixation. Attempts to overcome P deficiency in soils where legumes are grown involve addition of P-based fertilisers. However, these are produced from fmite, non-renewable resources that could be exhausted in the next 50-80 years. For this and other prudent reasons, viable alternatives are sought that include producing genetically enhanced plants with better P use efficiency (PUE). There exist some inter- and intraspecific genetic variation for associated traits of PUE in various legumes and these will have to be exploited to realize the development of P efficient cultivars. With the advent of sophisticated molecular tools, good progress has been made to understand the molecular response of some common physiological and morphological functions observed under LP. The research aims here were to investigate the energy costs and the alternative metabolic routes associated with C and N metabolism under LP in legumes, which is very scant in literature. We also investigated the recovery responses of nodulated roots upon P alleviation. Consequently, improvement strategies to produce legume varieties for better adaptation in poor P soils are envisaged. We have demonstrated varying degrees of sensitivity between the amide and ureide legume systems being investigated under short-term LP. The species-specific responses were ascribed to differences related to the agro-climatic origins, nodule morphologies and the type of N containing export product of the different legume types. These different responses also underscore possible different regulatory mechanisms under LP. Lupins were probed further, because of its apparent tolerance to P deficiency. Lupin nodules had between 3 to 5-fold higher Pj concentrations compared with soybeans under LP and HP, respectively. The maintenance of Pj levels, as oppose to a decline in the total P pool, is discussed in relation to its role in maintaining N2 fixation in lupins. Under LP, an effective Pj recycling mechanism in nodules is proposed to occur via the induction of the PEPc- MDH-ME route. This route also enhanced the capacity of root nodules to procure high malate concentrations that are used to fuel bacteroid respiration and N2 fixation. Two distinctly different cMDH proteins, one corresponding to HP and another corresponding to LP, were identified. The high malate concentrations reported here are speculated to have arisen through LP-induced cMDH. Metabolically available Pj decline developed gradually as P deficiency progressed. This coincided with a 15% decline in the %Ndfa. Moreover, under prolonged P deficiency the disproportionate synthesis of organic acids, most notably malate, that occurred at the expense of amino acids was proposed to account for this decline. The recovery in response to alleviation from LP involved alterations in the allocation of respiratory costs to growth and nutrient acquisition. Under LP, smaller nodules were formed and nodule metabolism revolved around accentuating PUE. Thus, there is considerable potential for improvement of P efficiency in legumes through manipulation of root: shoot partitioning. Bacteroids C-metabolism Dicarboxylic acids Nodules Photosynthesis Pi deficiency Nitrogen N2-fixation Respiration Lupinus Malate
22	A Study of Mitochondrial Malate Dehydrogenase in <i>Gallus gallus</i> and Other Avian Species Reidenbach, Kendall January 2020 (has links) No description available. Biochemistry Bioinformatics Malate Dehydrogenase mitochondrial MDH2 avian chicken migration biochemistry enzyme kinetics bioinformatics
23	Genetic analysis of high malate-producing sake yeasts and its applications / リンゴ酸高生産清酒酵母の遺伝子解析とその応用 Negoro, Hiroaki 24 November 2021 (has links) 京都大学 / 新制・論文博士 / 博士(農学) / 乙第13458号 / 論農博第2899号 / 新制\|\|農\|\|1088(附属図書館) / 学位論文\|\|R3\|\|N5362(農学部図書室) / (主査)教授小川順, 教授阪井康能, 教授栗原達夫 / 学位規則第4条第2項該当 / Doctor of Agricultural Science / Kyoto University / DFAM GID complex Malate dehydrogenase Malic acid Peroxin Saccharomyces cerevisiae Sake brewing 610
24	Systems metabolic engineering of Arabidopsis for increased cellulose production Yen, Jiun Yang 29 January 2014 (has links) Computational biology enabled us to manage vast amount of experimental data and make inferences on observations that we had not made. Among the many methods, predicting metabolic functions with genome-scale models had shown promising results in the recent years. Using sophisticated algorithms, such as flux balance analysis, OptKnock, and OptForce, we can predict flux distributions and design metabolic engineering strategies at a greater efficiency. The caveat of these current methods is the accuracy of the predictions. We proposed using flux balance analysis with flux ratios as a possible solution to improving the accuracy of the conventional methods. To examine the accuracy of our approach, we implemented flux balance analyses with flux ratios in five publicly available genome-scale models of five different organisms, including Arabidopsis thaliana, yeast, cyanobacteria, Escherichia coli, and Clostridium acetobutylicum, using published metabolic engineering strategies for improving product yields in these organisms. We examined the limitations of the published strategies, searched for possible improvements, and evaluated the impact of these strategies on growth and product yields. The flux balance analysis with flux ratio method requires a prior knowledge on the critical regions of the metabolic network where altering flux ratios can have significant impact on flux redistribution. Thus, we further developed the reverse flux balance analysis with flux ratio algorithm as a possible solution to automatically identify these critical regions and suggest metabolic engineering strategies. We examined the accuracy of this algorithm using an Arabidopsis genome-scale model and found consistency in the prediction with our experimental data. / Master of Science cellulose Arabidopsis thaliana genome-scale model flux ratio flux balance analysis mitochondrial malate dehydrogenase biomass
25	Thermal Selection at an Enzyme Locus in Populations of the Red Shiner, Notropis lutrensis, Receiving Hypolimnion Effluents from a Reservoir Richmond, M. Carol 05 1900 (has links) Genetic variation was examined at 19 loci encoding enzymatic and general proteins Notropis lutrensis from the Brazos River in Texas. The thermal regime of the Brazos River below Possum Kingdom Reservoir is altered due to the release of water from the hypolimnion. Summer water temperatures fluctuate as much as 7^oC. Levels of heterozygosity at the malate dehydrogenase-2 locus were correlated with the degree of water temperature fluctuation at each locality. The isozymes from three homozygous patterns of supernatant malate dehydrogenase (Mdh-l, Mdh-2) exhibited different activities at different experimental temperatures. genetic variations Brazos River ecological genetics Ecological genetics. Natural selection. Temperature -- Physiological effect. Isoenzymes. Red shiner. Malate dehydrogenase.
26	Perfil transcricional e proteômico de Paracoccidioides em resposta à itraconazol e anfotericina B e identificação de compostos com potencial antifúngico / Proteomic and transcriptional profile of Paracoccidioides in response to itraconazole and identification of compounds with antifungal potential Silva Neto, Benedito Rodrigues da 02 May 2013 (has links) Submitted by Erika Demachki (erikademachki@gmail.com) on 2014-11-18T17:34:04Z No. of bitstreams: 2 Tese - Benedito R Neto da Silva Neto - 2013.pdf: 6956298 bytes, checksum: 49e69215087afc3b1ae2471385d29585 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Approved for entry into archive by Erika Demachki (erikademachki@gmail.com) on 2014-11-18T17:34:16Z (GMT) No. of bitstreams: 2 Tese - Benedito R Neto da Silva Neto - 2013.pdf: 6956298 bytes, checksum: 49e69215087afc3b1ae2471385d29585 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Made available in DSpace on 2014-11-18T17:34:18Z (GMT). No. of bitstreams: 2 Tese - Benedito R Neto da Silva Neto - 2013.pdf: 6956298 bytes, checksum: 49e69215087afc3b1ae2471385d29585 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Previous issue date: 2013-05-02 / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / The thermally dimorphic fungal pathogen Paracoccidioides is the agent of paracoccidioidomycosis. This disease is characterized by a granulomatous inflammation with clinical forms ranging from a benign localized infection to a disseminated one. The triazole drugs are broad-spectrum antifungal agents and are currently used to treat infections caused by various pathogenic yeast and molds. The mechanism of action of azoles has been elucidated in some fungi, although little is known in Paracoccidioides. Here we aim to investigate the mechanism of action of itraconazole on Paracoccidioides by using Representational Difference Analysis from Paracoccidioides yeast cells grown in the absence and presence of itraconazole for 1 and 2 h. Among the Paracoccidioides genes up-regulated by itraconazole were those mainly involved in cellular transport, metabolism/energy, transcription, cell rescue, defense and virulence. ERG11, ERG6, ERG3, ERG5 and ERG25 were up-regulated when evaluated in a timely manner. In vivo infection experiment in mice corroborated in vitro results. The glyoxylate cycle and its key enzymes isocitrate lyase and malate synthase (MLS) play a crucial role in the pathogenicity and virulence of various fungi such as the human pathogens. Here, we describe a study conducted to develop rational ligands as candidates to inhibit receptor PbMLS. The important step in the search for ligands for this receptor based on structural homology, molecular docking and molecular dynamics involving scanning virtual (virtual screening) through the program AutoDock Vina. Identified from the database of natural compounds (ZINC data bank) potential candidate ligands to inhibit the activity of PbMLS when compared to the original binder. This process led us to monoterpene indole alkaloids of the genus Palicourea (Rubiaceae) comprises about 230 species from shrubs and small trees distributed mainly in tropical regions. From the molecular docking fifteen compounds were tested as to its effectiveness in inhibiting the activity of PbMLS. The specific activity of PbMLS was affected by the compounds. Four indol alkaloids showed ability to reduce the enzyme activity. Since PbMLS is a linked surface protein that behaves as an anchorless adhesin, and PbICL is here described as adhesin, we also investigated if those compounds inhibit the adhesion of the protein to extracellular. Twodimensional gel electrophoresis we used to investigate the proteins expressed differentially during treatment with itraconazole and amphotericin B. Gels of three independent biological replicates were digitalized and the images were analyzed using the ImageMaster 2D Platinum 6.0 software (GE Healthcare). Spot intensities were normalized and the statistics analyses were estimated by one-way ANOVA. The spots of interest were excised, in-gel digested with trypsin, and the peptides were then analyzed by MS and/or MS/MS and and sequenced. The results obtained here should assist in understanding the mode of action of drugs in Paracoccidioides, and outline studies identifying compounds with antifungal activity. / O fungo patógeno termodimórfico Paracoccidioides é o agente da paracoccidioidomicose. Esta doença é caracterizada por uma inflamação granulomatosa onde as formas clínicas vão da infecção localizada benigna a uma uma disseminada. As drogas triazólicas são antifúngicos de amplo espectro e são usadas atualmente para tratar infecções causadas por vários fungos patogênicos e fungos. O mecanismo de ação dos azólicos foi elucidado em alguns fungos, embora pouco se sabe em Paracoccidioides. Aqui, em primeiro lugar pretendemos investigar o mecanismo de ação do itraconazol em Paracoccidioides usando análise de diferença representacional de Paracoccidioides células de levedura crescidas na ausência e na presença de itraconazol por 1 e 2 horas. Entre os genes Paracoccidioides up-regulados pelo itraconazol foram os envolvidos, principalmente no transporte celular, metabolismo/energia, transcrição, defesa e virulência. ERG11, ERG6, ERG3, ERG5 e ERG25 foram regulados quando avaliados de forma temporal. Experimentos de infecção em camundongos corroborou resultados in vitro. O ciclo do glioxilato e suas enzimas chave isocitrato liase (ICL) e malato sintetase (MLS) desempenham um papel fundamental na patogenicidade e virulência de vários fungos, assim como patogênese em humanos. Neste trabalho, descrevemos um estudo realizado para desenvolver ligantes racionais como candidatos pra inibir o receptor PbMLS. Apresentamos um passo importante na busca de ligantes para este receptor baseando-se em homologia de estruturas, dinâmica molecular e acoplamento molecular envolvendo varredura virtual (virtual screening) por meio do programa AutoDock Vina. Identificamos a partir de banco de compostos naturais (data bank ZINC) potenciais ligantes candidatos a inibir a atividade de PbMLS quando comparados ao ligante original. Este processo nos conduziu aos alcalóides indólicos monoterpênicos do gênero Palicourea (Rubiaceae) que compreende cerca de 230 espécies entre arbustos e pequenas árvores distribuídas, principalmente, nas regiões tropicais.A partir da ancoragem molecular quinze compostos foram testados quanto à sua eficácia na inibição da atividade de PbMLS. A atividade específica de PbMLS foi afetado pelos compostos. Quatro alcalóides indólico mostraram capacidade de reduzir a atividade da enzima. Desde que PbMLS é uma proteína associada à superfície que se comporta como uma adesina ancorada também foi investigado se os compostos inibem a adesão da proteína às matrizes extracelulares. O processo de eletroforese em gel bidimensional foi utilizado para investigar as proteínas diferencialmente expressas durante o tratamento com itraconazol e anfotericina B. Gel de três réplicas biológicas independentes foram digitalizadas e as imagens foram analisadas usando o software 6.0 Platinum 2D ImageMaster (GE Healthcare). Intensidades dos spots foram normalizados e foram estimadas as análises estatísticas por ANOVA one-way. Os spots de interesse foram excisadas do gel digerida com tripsina e os péptidos foram analisados por MS e / ou MS / MS e sequenciados. Os resultados obtidos aqui devem ajudar na compreensão do mecanismo de ação de drogas em Paracoccidioides, e delinear estudos de identificação de compostos com atividade antifúngica. Paracoccidioides Antifúngico Inibidores Docking molecular Malato sintase Adesão Antifungal inhibitors Molecular docking Malate synthase Adhesion CIENCIAS BIOLOGICAS::MICROBIOLOGIA
27	Struktur und Thermodynamik von Komplexen dreiwertiger Lanthanide/Actinide mit Malat und deren Rückhaltung an Calciumsilikathydrat-Phasen Taube, Franziska 07 December 2019 (has links) Im Rahmen dieser Arbeit wurden die Komplexierungsreaktionen von dreiwertigen Lanthaniden (Ln) und Actiniden (An) mit (α-hydroxy-)carboxylathaltigen Betonzuschlagmitteln in An- und Abwesenheit von Calciumsilikathydrat-Phasen untersucht. Die erzielten Ergebnisse erlauben eine umfassende Beschreibung der Wechselwirkungen auf thermodynamischer und molekularstruktureller Ebene. info:eu-repo/classification/ddc/540 ddc:540
28	Étude de la polymérisation enzymatique de la malolactonates en présence de lipases / Study of the lipase-catalyzed polymerization of malolactonates Casajus, Hubert 11 December 2017 (has links) Les polyesters aliphatiques, comme le poly(acide malique) et ses dérivés, sont une famille de polymères aux propriétés de bio(comptabilité) et de bio(dégradabilité) remarquables, qui en font des candidats de choix pour l'élaboration de systèmes de vectorisation de principes actifs. Généralement, ces polymères sont synthétisés via des réactions de polymérisation utilisant des amorceurs, voir des catalyseurs, organiques, organométalliques ou métalliques. La présence de ces molécules, même à l'état de traces, peut être à l'origine d'une toxicité non souhaitée. Par conséquent, l'utilisation de biocatalyseurs, comme les lipases, se développe pour apporter une solution à cet inconvénient. Cependant, cette voie de synthèse enzymatique fait face à d'autres problèmes, tels qu'une polymérisation moins bien maîtrisée et des polymères de masses molaires faibles. Cette thèse a donc pour objectif de mettre au point une voie de polymérisation du malolactonate de benzyle utilisant la lipase de pancréas de porc (PPL) comme amorceur. Dans un premier temps, nous avons optimisé certains paramètres réactionnels permettant d'obtenir des poly(malate de benzyle) , PMLABe, de masses molaires suffisamment élevées pour que ces polymères puissent être utilisés dans la formulation de vecteurs de principes actifs, grâce à l'utilisation et l'extrapolation d'un plan d'expérience. Nous nous sommes ensuite intéressés à la compréhension du mécanisme réactionnel de la polymérisation enzymatique du malolactonate de benzyle, une β-lactone β-substituée. Les différentes études menées ont permis d'approfondir notre connaissance dans ce domaine. Deux mécanismes ont été proposés et des expériences sont en cours pour confirmer l'un d'entre eux. Finalement, comme l'objectif initial est de proposer une méthode de synthèse de dérivés du PMLA plus biocompatibles conduisant à des polymères sans résidus d'amorceurs chimiques toxiques, nous avons comparé les activités biologiques de nanoparticules préparées à partir de PMLABe synthétisés par voie chimique et par voie enzymatique. Pour cela, nous avons mesuré la captation de ces nanoparticules, encapsulant une sonde de fluorescence, par des cellules hépatiques HepaRG. Puis, nous avons évalué la toxicité aiguë et la toxicité chronique de ces nanoparticules vis-à-vis des cellules HepaRG. Ces études ont permis de mettre en évidence certaines propriétés des nanoparticules ayant une influence sur la survie cellulaire et le métabolisme des cellules HepaRG. De la compréhension théorique aux applications potentielles, cette thèse apporte des connaissances sur la polymérisation enzymatique des lactones substituées, un domaine peu décrit dans la littérature. / Aliphatic polyesters, like poly(malic acid)and its derivatives, are a family of polymers with outstanding properties, such as bio(degradability) and bio(compatibility). Therefore, these polyesters can be considered as excellent candidates for the design of drug carriers. These kinds of polymers are usually synthesized thanks to polymerization reactions using organic, organometallic or metallic initiators or catalysts. The presence of such molecules, even in trace amounts, can cause undesired toxicities. Therefore, the use of biocatalysts, like lipases, is attracting more and more interest and research work to circumvent this problem. However, this enzymatic polymerization method has to face to other issues, such as a lower controlled of the polymerization process and polymers with lower molar masses. Therefore, this PhD research work aimed at setting up the enzymatic polymerization of benzyl malolactonate, using porcine pancreatic lipase (PPL). Firstly, we have optimized some reactional parameters allowing to obtain poly(benzyl malate), PMLABe, with molar masses adapted to their uses for the design of drug carriers, thanks to a Design of Experiments (DoE) and its extrapolation. We were then interested by the comprehension of the enzymatic polymerization mechanism of the benzyl malolactonate. The different studies we carried out allowed us to deepen our knowledges of such enzymatic polymerization. Two non-canonical mechanisms were proposed and further experiments are in progress to confirm the one which is the more probable. Finally, because our initial goal was to propose a more biocompatible polymerization method to obtain PMLABe free of traces of chemical initiator, we compared biologic activities of different nanoparticles prepared from PMLABe synthesized using chemical or enzymatic pathway. For that, we have first measured the uptake of these nanoparticles encapsulating a fluorescent dye, by the hepatic cells HepaRG. Then, we have studied the acute and chronic toxicity of the nanoparticles on the HepaRG cells. Results of these studies have highlighted that certain properties of the nanoparticles and/or of the polymers which constituted them have an influence on the cells viability and on the cells metabolism. From the theoretical mechanism to the probable applications, this thesis brings knowledge about the enzymatic polymerization of substituted lactone, a field poorly described in the literature. Polymérisation enzymatique Lipases Plan d’expérience Malolactonate de benzyle Poly(malate de benzyle) Nanoparticules Vectorisation de principes actifs Cellules hépatiques HepaRG Cytoxicités aigüe et chronique Métabolisme cellulaire Enzymatic polymerization Lipases Design of experiments Benzyl malolactonate Poly(benzyl malate) Nanoparticles Drug delivery systems HepaRG hepatic cells line Acute and chronic cytotoxicities Lipases Design of experiments Benzyl malolactonate Poly(benzyl malate) Nanoparticles Drug delivery systems HepaRG hepatic cells line Acute and chronic cytotoxicities Cellular metabolism
29	Identification of molecular-genetic determinants of quality traits of tomato fruit Morgan, Megan Jayne January 2011 (has links) Tomato is an important food crop and a model for fleshy fruit development. The process of fruit ripening involves changes in chemical composition and in particular the accumulation of sugars, organic, amino acids and carotenes. The research described in this thesis aimed to identify key regulatory aspects associated with the accumulation of the major acids in tomato fruit by analysis of introgression lines resulting from a cross between a cultivated variety, Solanum lycopersicum, and a wild progenitor species, Solanum pennellii. Line 2-5 showed increases in citrate, malate, aspartate and glutamate in fruit grown under greenhouse conditions. The genetic differences between line 2-5, its overlapping lines, sub-introgression lines and the recurrent parent were used to link the metabolite phenotypes to smaller chromosomal regions. This analysis suggested multiple epistatic loci control fruit metabolite accumulation. Investigation of the biochemical differences between line 2-5 and the recurrent parent revealed that organic and amino acid accumulation did not dependent upon increased TCA cycle capacity. Regulation at the metabolic level was identified for citrate accumulation with changes in cytosolic aconitase in line 2-5. As these metabolites accumulate in the vacuole, tonoplast transport was investigated. Correlation of ATPase-dependent malate influx with altered malate content suggested malate tonoplast transport plays a role in malate accumulation and highlights the importance of vacuolar storage and transport in the regulation of organic and amino acid accumulation. 635
30	Interactions faibles protéine – protéine en solution : La malate déshydrogénase halophile Costenaro, Lionel 05 October 2001 (has links) (PDF) La cellule est un milieu très concentré où les interactions entre macromolécules, même faibles, jouent un grand rôle dans leur solubilité et dans l'assemblage des complexes labiles assurant les fonctions biologiques. Les interactions faibles entre protéines déterminant la non-idéalité de leurs solutions vont aussi gouverner leur cristallisation.<br />Dans quelle mesure les interactions protéine – solvant influencent-elles les interactions protéine – protéine ? Nous avons mis en relation ces deux types d'interactions pour la malate déshydrogénase (Hm MalDH) de Haloarcula marismortui, protéine halophile très acide qui a des solvatations variées et très riches en eau et en sel.<br />Nous avons développé une nouvelle méthode de détermination du second coefficient du viriel A2 par la modélisation des profils de vitesse de sédimentation en ultracentrifugation analytique, qui permet l'étude de solvants complexes.<br />Les interactions protéine – protéine de la Hm MalDH en divers sels ont été caractérisées par diffusion de neutrons ou de rayons X aux petits angles. Les A2 et les facteurs de structure en solution ont été modélisés par des potentiels d'interaction de type DLVO. Les interactions répulsives sont principalement dues au terme de volume exclu et dans une moindre mesure au terme électrostatique. Les interactions attractives sont qualitativement corrélées à des valeurs positives ou négatives des paramètres d'interaction préférentielle avec le sel. Ces résultats permettent d'expliquer l'adaptation moléculaire des protéines halophiles qui doivent ainsi avoir une solvatation riche en sel pour rester soluble à haut sel.<br />La cristallisation par dilution de la Hm MalDH dans des mélanges sel – MPD (méthyl-2-pentanediol-2,4) résulte d'une lente évolution des interactions protéine – protéine, de répulsives à modérément attractives. Le MPD modifie les interactions protéine – protéine en divers sels en ajoutant une attraction qui est liée à la répulsion du MPD par les charges de la protéine. interactions protéine – protéine solvatation malate déshydrogénase halophile second coefficient du viriel facteur de structure MPD cristallisation

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