Tesis sobre el tema "Tolerance to copper"
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ADAMO, GIUSY MANUELA. "Evolution of copper tolerance in yeast cells". Doctoral thesis, Università degli Studi di Milano-Bicocca, 2012. http://hdl.handle.net/10281/29458.
Texto completoWadey, P. "The physiology of copper tolerance in Mimulus guttatus". Thesis, University of Liverpool, 1988. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.233878.
Texto completoHarper, Frances Anne. "The cost of copper tolerance in Mimulus guttatus". Thesis, University of Exeter, 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.307278.
Texto completoStrange, J. "The physiology of copper tolerance in Mimulus guttatus". Thesis, University of Exeter, 1988. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.383346.
Texto completoLloyd, Deborah. "Reproductive isolation associated with the copper tolerance locus in Mimulus guttatus". Thesis, University of Exeter, 2010. http://hdl.handle.net/10036/3173.
Texto completoFuentealba, I. C. "Cellular mechanisms of toxicity and tolerance in the copper-loaded rat". Thesis, University of Liverpool, 1988. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.383477.
Texto completoGonzalez-Chavez, Ma del Carmen. "Arbuscular mycorrhizal fungi from As/Cu polluted soils, contribution to plant tolerance and importance of the external mycelium". Thesis, University of Reading, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.312514.
Texto completoMetaxas, Anna. "Effect of the interaction between two species of marine diatoms on their individual copper tolerance". Thesis, University of British Columbia, 1989. http://hdl.handle.net/2429/27597.
Texto completoScience, Faculty of
Earth, Ocean and Atmospheric Sciences, Department of
Graduate
Pinto, Cecilia de Agrela. "The two-component system of a novel copper resistant operon of Marinobacter hydrocarbonoclasticus". Master's thesis, Faculdade de Ciências e Tecnologia, 2012. http://hdl.handle.net/10362/10062.
Texto completoThe majority of bacterial heavy metal resistance systems are regulated by twocomponent signal transduction systems. Stimuli from the environment interact with the histidine kinase, which in turn activates the response regulator by phosphorylation. The effector domain of the response regulator then binds to DNA, eliciting the specific response. Analysis of the Marinobacter hydrocarbonoclasticus genome revealed the presence of genes, copXAB, that code for proteins associated with copper response. The biochemical characterization of the two-component signal transduction system, copSR, is of interest due to the vital role it plays in the regulation of expression of the copXAB operon. The genes that encode for the CopR and CopS_C (cytosolic sensor domain of CopS) proteins were heterologously expressed in E.coli and expression was optimized for the production of soluble protein using LB medium. Due to solubility problems, the genes that code for these proteins were cloned as hexahistidine or glutathione S-transferase fusion proteins. CopR and its domains were optimally expressed at 16°C for 16 and 3 h after induction, respectively, whilst CopS_C was expressed at 37°C during 3 h after induction. Proteins were purified using different chromatographic strategies, most of them using affinity chromatography. The yields of pure protein per liter of growth culture obtained after complete purification from the soluble cellular extract were: 0.14 to 0.23 mg/L for CopR; 0.42 mg/L, CopR_NHis6; for the CopR_CHis6 it was 0.16 mg/L and 4.2 mg/L of CopS_C. The molecular mass of each protein was determined by gel filtration, 31 kDa for CopR, 17.5 kDa for CopR_NHis6, 15.1 kDa for CopR_CHis6 and 38.2 kDa for CopS_C. In the case of CopS_C there is the possibility that a dimer is formed, which should be evaluated. From the evaluation of disulfide bonds, using SDS PAGE and PAGE gels, all proteins or protein domains appeared to be monomers when in the presence of β-MEtOH. Circular dichroism evaluated the state of folding of the CopS_C and CopR proteins, which were shown to be folded in which the α-helix structures predominate. A model structure for CopR was also determined which agrees with this analysis. However, in the case of the CopR domains, the data obtained merely indicate folding, due to the low concentrations of the proteins. Phosphorylation and electrophoresis mobility shift assays of the CopR protein were, for the most part, inconclusive. However, in the absence of BSA, formation of the CopR:DNA complex in a gel filtration column is observed, though requires additional evaluation.
Saint-Pierre, Édith. "Mise en évidence d'un mécanisme de tolérance chez scenedesmus quadricauda suite à une intoxication à long terme au cuivre /". Thèse, Chicoutimi : Université du Québec à Chicoutimi, 1992. http://theses.uqac.ca.
Texto completoRésumé disponible sur Internet. CaQCU Bibliogr.: f. 69-73. Document électronique également accessible en format PDF. CaQCU
Paraskevopoulou, Angeliki T. "An investigation into the copper and lead tolerance of populations of Buddleia davidii and Chamaenerion angustifolium". Thesis, Sheffield Hallam University, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.367035.
Texto completoHussain, Noor Hana. "Inducible tolerance and sensitivity to stress responses in 'Escherichia coli' with particular reference to copper and pH". Thesis, University College London (University of London), 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.244279.
Texto completoWatkins, A. J. D. "Within-mine differentiation in degree of copper and arsenic tolerance in Agrostis capillaris L. (Agrosis tenuis sibth)". Thesis, University of Exeter, 1985. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.353993.
Texto completoGruhn, Christine Mae. "Effect of a heavy metal on ecto- and vesicular-arbuscular mycorrhizal fungi: the physiology, ultrastructure, and ecology of copper stress and tolerance". Diss., Virginia Polytechnic Institute and State University, 1989. http://hdl.handle.net/10919/54531.
Texto completoPh. D.
Gonçalves, Sara Isabel Bastos. "Zinc and copper impacts on freshwater diatoms: physiological, biochemical and metabolomic response of Tabellaria flocculosa". Master's thesis, Universidade de Aveiro, 2017. http://hdl.handle.net/10773/18812.
Texto completoOs ecossistemas dulçaquícolas encontram-se sob a ameaça constante de pressões antropogénicas, nomeadamente contaminação por metais. As diatomáceas são utilizadas como indicadores de qualidade da água, contudo a influência de micronutrientes, como zinco (Zn) e cobre (Cu), e os seus possíveis impactes são pouco compreendidos. Os objetivos deste estudo passam por elucidar o nível de tolerância, os alvos e repostas celulares para contradizer a toxicidade dos metais Zn e Cu em diatomáceas de água doce, expondo Tabellaria flocculosa (TFLO), isolada de um local contaminado, a 30, 500 e 1000 μg Zn/L e 0,3, 6 e 10 μg Cu/L. Diferentes abordagens bioquímicas, fisiológicas e metabolómicas foram utilizadas. Concentrações de Zn e Cu que ocorrem em ambientes contaminados tem efeitos tóxicos nesta espécie. O Cu, este é tóxico para TFLO a concentrações comuns no ambiente que não são considerados contaminados (0.3 μg Cu/L) e a sua toxicidade aumenta com a concentração. TFLO mostrou ainda ter estratégias distintas para sobreviver à exposição a diferentes níveis de stress impostos por Zn e Cu. TFLO sobrevive a elevadas concentrações intracelulares de Zn e Cu pelo aumento das enzimas antioxidantes (SOD, CAT) e recorrendo a compostos antioxidantes de baixo peso molecular (GSH). Estes mecanismos são suportados pela elevada produção de energia (atividade ETS e ainda no caso do cobre, açucares e lípidos). Às concentrações de 1000 μg Zn/L e 6 e 10 μg Cu/L, todos estes processos metabólicos mostraram ser especialmente aumentados em acréscimo aos processos de imobilização extracelular. O aumento da imobilização extracelular (EPS e frustulinas) parece ser uma estratégia comum de combate à toxicidade do Cu. Desta forma as células procuram restringir e mitigar o stress oxidativo gerado pelo aumento das concentrações intracelulares de Zn e Cu. Contudo, estes mecanismos não foram suficientes para proteger as células de danos em membranas e proteínas, incluindo do aumento do numero de valvas com teratologias a elevadas concentrações de Zn (500 e 1000 μg Zn/L) e em todas as concentrações de Cu. Mais ainda, uma diminuição nos compostos como a sacarose e especialmente o lumicromo deveriam ser estudados futuramente como marcadores específicos da toxicidade do Zn. No caso do Cu, a diminuição do composto hidroxilamina e de ácidos gordos (FA) insaturados e o aumento dos FA saturados, 2-palmitoilglicerol, glicerol e compostos diterpenos assim como o conteúdo em clorofila c devem ser testados como marcadores específicos de exposição ao Cu. Esta informação pode suportar o melhor entendimento do modo de ação de Zn e Cu a predição da resposta da comunidade de diatomáceas de água doce em diferentes ambientes contaminados com Cu e Zn, incluindo ambientes altamente contaminados, como na exploração mineira, pode ainda ajudar no desenvolvimento de novos índices para contaminação por metais, tendo em conta a existência de espécies tolerantes e ajudando políticas de avaliação de risco ambiental.
Freshwater ecosystems are under threatening anthropogenic pressures worldwide, namely metals. Diatoms are used as water quality indicators, but the impacts of micronutrients such as zinc (Zn) and copper (Cu) on diatoms are poorly understood. Our study aimed to elucidate the tolerance level, the cellular targets and the responses to counteract Zn and Cu toxicity of freshwater diatoms by exposing Tabellaria flocculosa (TFLO), isolated from a contaminated stream, to 30, 500 and 1000 μg Zn/L and 0.3, 6 and 10 μg Cu/L. Biochemical, physiological and metabolomic approaches were used. It was demonstrated that Zn and Cu are toxic to TFLO at concentrations occurring in contaminated environments. Cu was already toxic to TFLO at concentrations common in non-contaminated environments (0.3 μg Cu/L), and toxicity increased with Cu concentration. Distinct strategies to cope with Zn and Cu were shown. TFLO cells cope with intracellular high Zn and Cu concentrations by increasing antioxidant enzymes (SOD, CAT) and using low molecular weight antioxidants (GSH). These mechanisms are fuelled by a high energy production (ETS activity, and in Cu exposure sugars and lipids oxidation). At the highest Zn concentration (1000 μg/L) and 6 and 10 μg Cu/L, these metabolic processes were specially enhanced in addition to extracellular immobilization (EPS, frustulins), in an attempt to restrain the oxidative stress generated by high intracellular Zn and Cu concentrations. However, these mechanisms were not able to fully protect cells and damage in membranes and proteins occurred, including the increase of teratological valves at high Zn concentrations (500 and 1000 μg Zn/L) and Cu exposure from low to high concentrations (0.3 to 10 μg Cu/L). Additionally, the response of certain compounds was especially promising as potential markers for metals stress. For example, the decrease in sucrose and especially lumichrome should be tested as new specific markers of Zn toxicity. Additionally, the decrease of hydroxylamine and unsaturated fatty acids (FA) and the increase of saturated FA, 2-palmitoylglycerol, glycerol and diterpenoid compounds and chlorophyll c should be tested as new specific markers of Cu toxicity in future studies. This information supports the better understanding of Zn and Cu mode of action and prediction of diatom response in different Zn or Cu contamination levels, including highly impacted environments, such as mining scenarios, and may help develop new indices, taking into account species’ tolerance strategies and assist in environmental risk assessment policies.
Azzouzi, Asma. "L’homéostasie du cuivre chez la protéobactérie Rubrivivax gelatinosus". Thesis, Paris 11, 2013. http://www.theses.fr/2013PA112078/document.
Texto completoThe ability of Rubrivivax to adapt to its environment (aerobic versus anaerobic) relay on its ability to assemble different complexes involved respiration or photosynthesis pathways. These complexes require cofactors such as heme or chlorophylls, and metals such as magnesium, iron and copper. In particular, copper (Cu) is an essential trace element required for the assembly and the activity of the cytochrome c oxidase in the aerobic respiratory chain. Excess Cu however, is toxic and can originate in various cellular damages. In the absence of a tight control of copper entrance in the cells, bacteria have evolved different efflux systems to control copper concentration within the cytoplasm and the membrane. Very few data are available on the copper homeostasis systems in photosynthetic bacteria. We therefore studied the copper homeostasis system in Rubrivivax gelatinosus to understand how these microorganisms can deal with excess copper. In this work, I have identified several genes involved in copper tolerance. Central to this system, the P1B-type Cu⁺-ATPase CopA plays a major role in copper tolerance and translocates copper from the cytoplasm to the periplasm. The outlet of copper in the periplasm varies depending on the species. Cu can be sequestrated, oxidized or released outside the cells. Here I describe the identification CopI, a periplasmic protein present in many proteobacteria including Pseudomonas and Cupriavidus and show its requirement for copper tolerance in Rubrivivax under both aerobic and anaerobic conditions. Expression of both CopA and CopI is induced under excess copper and is regulated by CopR, a MerR regulator sensitive to changes in copper concentration. Rubrivivax genome encodes two P1B-type Cu⁺-ATPases, CopA and CtpA. My work confirmed that despite the sequence homology between these copper ATPases, they fulifill two different physiological roles in the cell. CopA is vital for tolerance to Cu while CtpA has a role in the insertion of Cu within cuproproteines. Furthermore, I showed that excess copper in the copA⁻ null mutant resulted in a substantial decrease of the cytochrome c oxidase and the photosystem under microaerobic and anaerobic conditions together with the extrusion of coproporphyrin III. Analyses of the mutant indicated that copper targeted the tetrapyrrole biosynthesis pathway at the level of the coproporphyrinogen III oxidase HemN and thereby affects the heme and chlorophyll containing complexes, the oxidase and the photosystem. These results, as well as published work by Macomber (Macomber and Imlay 2009) suggest that Cu target the 4Fe-4S clusters and that this metal may have played a role in the emergence of bimetallic enzymes to replace 4Fe-4S clusters during the appearance of oxygen in the atmosphere.Analyses of CopI expression and the copI⁻ null mutant, demonstrate that CopI is required for copper tolerance, and in the absence of an E. coli Cus-like copper efflux system in R. gelatinosus, my results strongly suggest that CopI is the major copper handling protein within the membrane. Altogether, my results allowed me to draw a comprehensive picture of the copper tolerance system within the purple photosynthetic bacterium Rubrivivax gelatinosus and probably other proteobacteria that possess a homologue of copI gene
Lambert, Anne-Sophie. "Influence de la température sur la réponse de communautés microbiennes périphytiques à une exposition métallique : cas du cuivre". Thesis, Lyon 1, 2015. http://www.theses.fr/2015LYO10235/document.
Texto completoMany streams are impacted by metallic pollution. In such ecosystems, microbial communities, which grow preferentially as biofilms, can be affected by these pollutants. However, there is a need to better assess the impact of toxic substances under multi-stress interactions. In this context, the main aim of this work was to evaluate the effect of temperature on biofilm response to copper (Cu) exposure. Accordingly, we addressed the influence of temperature on microbial community sensitivity to Cu on the one hand, and its influence on biofilm exposure to this metal on the other hand. Microcosm experiments were performed under laboratory conditions using biofilms sampled in winter or summer. This work allowed us to set up new methodological developments, which were applied to improve the protocols used to measure (i) Cu tolerance levels of biofilm microbial communities and (ii) Cu bioaccumulation in biofilms. Results showed that temperature could modulate structural and functional effects of Cu on biofilms, notably due to a decrease in Cu bioaccumulation at higher temperatures. In addition, our findings indicate that temperature increase could influence the sensitivity of microbial communities to Cu, whether they have been previously chronically exposed (PICT) or not to this metal. Nonetheless, temperature effects on biofilms varied among experiments, revealing that the influence of temperature on the effects of Cu on microbial biofilms depends on many parameters, such as the initial composition of communities, the level of the applied stresses (temperature and Cu), the microbial compartment studied (i.e. phototrophic or heterotrophic), or the measured functional parameters
Орлова, М. В. y M. V. Orlova. "Поиск и отбор генотипов растений рода Alissum на устойчивость к никелю, меди и цинку : магистерская диссертация". Master's thesis, б. и, 2020. http://hdl.handle.net/10995/94208.
Texto completoThe purpose of the work is to select plant genotypes of the genus Alissum that are resistant to increased concentrations of nickel, copper and zinc ions. Three species of plants from the genus Alissum sp. Brassicaceae family, namely: A. litvinovii, A. tortuosum, A. obovatum. During the experiment, plants were obtained from seeds, which were subjected to microclonal propagation. Plants were cultivated on media containing Cu2+, Ni2+ or Zn2 + at a concentration of 50 – 100 – 200 µM/L. Morphological measurements and descriptions were performed over 6 weeks. After the experiment, the content of Ni2+ ions in the raw biomass was determined using the Chugaev reagent. Plant genotypes that are resistant to an excess of heavy metals in the medium and capable of active growth under stress were selected; A. tortuosum genotype № 6 exceeded the control by 2.6 times and reached a size of 46.7 mm (200 µM Zn2+). Plants showed an accumulating ability with respect to nickel ions in vitro. Genotype № 5 A. obovatum accumulates 1.59 mg/g Ni2+ wet weight, which is 8 times higher than the control (200 µM Ni2+). This study confirms the promise of using plants from the genus Alyssum for phytoremediation. The final qualifying work of the master is 61 pages, 21 figures, 5 tables, 81 literary sources, of which 50 are Russian-speaking and 31 are English-speaking.
Torres, Urquidy Oscar Hernando. "Copper Resistant Bacteria Better Tolerate Commercially Available Antimicrobial Treatments Based in Silver and Silver-Copper Ions". Diss., The University of Arizona, 2011. http://hdl.handle.net/10150/202734.
Texto completoGeiss, Loren V. "Freeze tolerance and cryoprotection of erythrocytes from Dryophytes chrysoscelis". University of Dayton / OhioLINK, 2018. http://rave.ohiolink.edu/etdc/view?acc_num=dayton1533074960877566.
Texto completoTambosi, Reem. "Stress and toxicity of metal in photosynthetic bacteria : multi-scale study of the effects and the targets of metal ions and nanoparticles Silver and Copper Acute Effects on Membrane Proteins and Impact on Photosynthetic and Respiratory Complexes in Bacteria Silver Effect on Bacterial Cell Membrane Structure Investigated by Atomic Force and Scanning Electron Microscopes Cadmium and Copper Cross-tolerance. Cu+ alleviates Cd2+ toxicity, and both cations target heme and chlorophyll biosynthesis pathway in Rubrivivax gelatinosus Additive effects of metal excess and superoxide, a highly toxic mixture in bacteria". Thesis, université Paris-Saclay, 2020. http://www.theses.fr/2020UPASL070.
Texto completoThe extensive use of metal ions in industry and agriculture represents a serious threat to the environment and to all living being because of the acute toxicity of these ions. However, it can also be a promising tool, silver ions and nanoparticles are some of the most widely used metals in various industrial and health applications. The antimicrobial effect of these nanoparticles is in part related to the released Ag⁺ ions and their ability to interact with bacterial membranes. The goal of this project is to study the interaction between biological subject (the bacteria) and physical objects (metals), and more specifically to understand the impact of metals in different forms (ions, nanoparticles and nanostructures) on the growth of the bacterial cells using different approaches : physiology, biochemistry, genetics and cell biology. We used as biological models, principally the purple photosynthetic bacterium Rubrivivax (R.) gelatinosus, but also Escherichia coli; and for physical objects, we used silver as main metal but also other metals (copper, cadmium and nickel) for comparison. The main objectives are: 1- to study the impact and the mechanisms of toxicity of these metallic ions/NPs on the bacterial respiratory and photosynthesis metabolisms. 2- To identify the bacterial genes involved in response to excess silver. 3- To study the internalization and interaction of metals ions and NPs within biological membranes. The results showed that we were able to identify, both in vitro and in vivo, specific targets of Ag⁺ and Cu²⁺ ions within the membrane of bacteria. This include complexes involved in photosynthesis, but also complexes involved in respiration. Ag⁺ and Cu²⁺ were shown to specificaly target a solvent exposed bacteriochlorophyll in the light harvesting antennae of the photosystem. This also presents, in our knowledge, the first direct evidence of silver ions damages to membrane proteins involved in these metabolisms. We also carried out a microscopy (AFM/ SEM) comparative study of the effect of Ag⁺ ions or Ag-NPs synthesized in our laboratory, on the bacterial cell morphology
Watt, Grace R. "Impact of Device Parametric Tolerances on Current Sharing Behavior of a SiC Half-Bridge Power Module". Thesis, Virginia Tech, 2020. http://hdl.handle.net/10919/96559.
Texto completoMaster of Science
This paper describes the design, construction, and testing of advanced power devices for use in electric vehicles. Power devices are necessary to supply electricity to different parts of the vehicle; for example, energy is stored in a battery as direct current (DC) power, but the motor requires alternating current (AC) power. Therefore, power electronics can alter the energy to be delivered as DC or AC. In order to carry more power, multiple devices can be used together just as 10 people can carry more weight than 1 person. However, because the devices are not perfect, there can be slight differences in the performance of one device to another. One device may have to carry more current than another device which could cause failure earlier than intended. In this research project, multiple power devices were placed into a package, or "module." In a control module, the devices were selected with similar properties to one another. In an experimental module, the devices were selected with properties very different from one another. It was determined that the when the devices were 17.7% difference, there was 119.9 µJ more energy loss and it was 22.2°C hotter than when the difference was only 0.6%. However, the severity of the difference was dependent on how multiple device characteristics interacted with one another. It may be possible to compensate some of the impact of device differences in one characteristic with opposing differences in another device characteristic.
Privett, Sean. "Some physiochemical factors associated with filamentous freshwater algal growths in the Breede river, and the derivation of a rapid test for screening their copper tolerances". Thesis, University of Cape Town, 1994. http://hdl.handle.net/11427/25866.
Texto completoAelst, Sébastien van. "Etude fonctionnelle des gènes plasmidiques de résistance au cuivre de Cupriavidus metallidurans: aspects physiologique, biochimique et écologique". Doctoral thesis, Universite Libre de Bruxelles, 2008. http://hdl.handle.net/2013/ULB-DIPOT:oai:dipot.ulb.ac.be:2013/210529.
Texto completoOn distingue dans l’îlot cop des gènes codant pour des fonctions de résistance proprement dite (essentiellement par détoxication active du cytoplasme et du périplasme). En effet, les mutants de copSRABCD, copF, et dans une moindre mesure copJ et copE deviennent sensibles. Les phénotypes des mutants divergent toutefois suivant que la mutation soit sur un cosmide qui ne porte que l’îlot (pMOL1024) ou dans son plasmide d’origine (pMOL30). Un second groupe de mutants (copVTMK, copG, copL, copQ) se distingue par un phénotype plus résistant ou identique à la souche parente, sauf autour de la CMI. Ces gènes interviendraient donc à la CMI pour assurer la résistance la plus élevée et le maintien d'un état viable latent.
La présence de l’îlot cop permet de contenir le taux d’oxygène radicalaire qui reste à un taux basal lorsque les cellules sont adaptées au cuivre environnent. Après un choc de Cu (ou stress aigu), l’îlot cop répond de façon « explosive » au stress, en consommant l’énergie du potentiel membranaire et en augmentant fortement l’activité de la chaîne respiratoire.
La résistance au cuivre est inductible, mais de façon différenciée pour la souche sauvage (CH34) et celle qui ne porte qu l’îlot cop (AE1744) :la CMI de CH34 triple après adaptation au cuivre, alors que celle d’AE1744 est inchangée. Après un choc de Cu, la résistance au cuivre est plus fortement induite pour AE1744 que pour CH34. Ces observations suggèrent que l’îlot cop ait été sélectionné pour sa capacité à répondre à un stress aigu puis intégré dans un ensemble de gènes plus vaste qui répond à des impératifs de stress chronique.
L’analyse biochimique de CopI, une petite protéine bleue à cuivre, montre qu’elle porte un site analogue à celui des oxydases multicuivre. Son rôle pourrait dès lors être celui d’une réductase multicuivre. La protéine CopK lie de façon très spécifique le Cu(I) et il semble que la liaison du cuivre modifie sa structure. L’analyse écologique a montré que des homologues de copK pourraient être présents dans l’ADN extrait de la terre de biotopes chargés en cuivre, et dans les souches cuprorésistantes qu’on y trouve.
La contribution majeure de cette thèse est de montrer que l’effet d’un stress métallique ne se résume pas à deux états physiologiques « mort ou vif ». Il y a lieu de considérer des états transitoires (choc de Cu, adaptation au métal, survie autour de la CMI, persistance) où interviennent des gènes spécifiques dans un ou plusieurs états donnés. Les résultats biochimiques et physiologiques ne nous éclairent pas encore assez sur les interconversions Cu(I)/Cu(II) ni sur les flux de cations notamment vers l'espace extracellulaire. Cette thèse ouvre des perspectives sur des mécanismes (protection à la CMI, phénotype persistant) assurant la survie des bactéries ou leur potentiel de recolonisation lors d'une diminution de la pression toxique :les gènes copT, copV, copK, copM, copB, copG, copL et copQ semblent impliqués dans ces fonctions.
Doctorat en Sciences agronomiques et ingénierie biologique
info:eu-repo/semantics/nonPublished
Faucon, Michel-Pierre. "Ecologie et biologie de la conservation des métallophytes: le cas de Crepidorhopalon perenniset C. tenuis (Scrophulariaceae) des sols cupro-cobaltifères du Katanga". Doctoral thesis, Universite Libre de Bruxelles, 2009. http://hdl.handle.net/2013/ULB-DIPOT:oai:dipot.ulb.ac.be:2013/210267.
Texto completoDans ce contexte, la thèse représente une des toutes premières approches de la biologie et l’écologie des populations de deux métallophytes apparentées. L’objectif est de préciser la distribution et la niche des deux taxons, et la variation de leur capacité d’accumuler et de tolérer les métaux lourds. Les résultats sont utilisés pour discuter la valeur conservatoire des cuprophytes du Katanga, leur vulnérabilité et envisager des stratégies de conservation.
Nous avons montré que les sols des affleurements de roche cuprocobaltifère se distinguer édaphiquement d’autres types de sols métallifères dans le monde. La révision phytogéographique et taxonomique a permis de valider 32 taxons endémiques et de mettre en évidence 23 couples de cuprophytes étroitement apparentés. La proportion élevée de couples de cuprophytes apparentés nous laisse suggérer que des événements de spéciation auraient existés au sein même des habitats cuprifères. Un isolement écologique pourrait s’exercer au niveau des zones les plus riches en cuivre. Ces couples d’espèces cuprophytes constitueraient un outil de recherche idéal pour l’étude de la spéciation.
Les propriétés hyperaccumulatrices de certaines espèces ont été exagérées, sans doute par suite de problèmes méthodologiques. L’accumulation du Cu ne se produit que dans des conditions édaphiques particulières, très difficiles à obtenir en culture. Cependant, nous avons montré que C. tenuis et C. perennis étaient hautement tolérantes au cuivre. Chez ces deux espèces, le cuivre provoquait une augmentation des performances de certaines populations métallicoles en milieux stérile. Ces populations posséderaient des besoins élevés en cuivre. Dans ce cas, la cuprophilie apparente de l’espèce in natura pourrait être expliquée par un coût de la tolérance au cuivre. Cette cuprophilie semble être un phénomène rare chez les espèces tolérantes au cuivre et confère ainsi à C. perennis et C. tenuis une valeur biologique remarquable.
Actuellement, parmi les 32 taxons endémiques stricts des habitats cuprifères du Katanga, 6% sont éteints (EX), 73% sont en danger critique d’extinction (CR), 9% sont en danger d’extinction (EN) et 3% sont vulnérables (VU). De plus, 18 taxons présentant une affinité particulièrement élevée pour les sols cuprifères, sans y être totalement confinés (fréquence sur Cu > 75%) sont réellement menacés d’extinction (22 % EN et 78% VU). Néanmoins, 18 % de ces endémiques menacées sont capables de coloniser les habitats métallifères anthropogènes. Comme C. perennis, certaines endémiques se développaient uniquement sur des sols perturbés par l’activité minière. C. tenuis possède aussi son optimum écologique sur les sols anthropogènes cuprifères. Cela indique que certaines espèces de la flore du cuivre du Katanga considérées en danger critique d’extinction sont en fait moins menacées parce qu’elles sont en mesure de se développer sur les habitats anthropogènes métallifères. L’exploitation minière est toujours destructive mais les habitats anthropogènes récents semblent avoir une valeur de conservation pour certains métallophytes rares. Une partie des déchets de l’exploitation minière et les sols contaminés pourraient être gérés de manière à fournir des habitats artificiels pour la colonisation ou la conservation ex situ de ces espèces. Dans la discussion, nous examinons les stratégies de conservation de ces espèces.
Doctorat en Sciences
info:eu-repo/semantics/nonPublished
Bell, Francesca Y. "Copper tolerance of Listeria monocytogenes strain DRDC8". Thesis, 2010. http://hdl.handle.net/2440/65482.
Texto completoThesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2010
Louro, Filipe José Afonso Sabino de Sousa. "Heritability and inheritance of tolerance to copper in Daphnia magna". Master's thesis, 2013. http://hdl.handle.net/10316/24615.
Texto completoGenetic erosion is a case of microevolution where genetic information is lost through the loss of genotypes. Although there are many factors that may contribute to the loss of genotypes, contaminants originating from human activities such as mining and agriculture are among the most concerning. Acid mine drainage (AMD) is a product of mining activity that is a very acidic effluent with high concentrations of various metals, contamination which may lead a population to genetic erosion. In Daphnia sp., tolerance to copper was found to be correlated with tolerance to AMD and can be used to study AMD driven genetic erosion. To better understand it two specific objectives were delineated with the present work, to calculate the heritability and inheritance of the tolerance to copper in Daphnia magna. Ephippia of D. magna were obtained from the following two different sources: (1) a commercial source producing ephippia from uni-clonal mass cultures and (2) a natural pond where ephippia were collected once in time. Heritability of the tolerance to copper was studied, based on time to death toxicity tests on over 200 clones from two different sources, where values of 71 and 82% were calculated for clones from source M and B, respectively. Relative spread was also calculated for each clone and compared with the tolerance of the respective clones, showing that more extreme clones (the most tolerant and the most sensitive) have smaller variabilities. To assess inheritance, sexual reproduction was attempted by stimulating ephippia production within a group of 24 selected clones, 12 clones from each source, being the six most sensitive and the six most tolerant to copper. However, iv ephippia production was not successfully achieved. Therefore it was not possible to study the inheritance of tolerance to copper in D. magna. Overall, the wide distribution of tolerances, the lower variability in extreme clones, and the high heritability show that tolerance to copper can easily be involved in microevolution episodes. Although not all objectives proposed were achieved, this work still represents new information and one significant contribution to the study of the microevolution of tolerance in Daphnia magna.
A erosão genética é um caso de microevolução em que a informação genética é perdida através da perda de genótipos. Apesar de haverem muitos fatores que podem contribuir para a perda de genótipos, contaminantes oriundos de atividades humanas como a indústria mineira e a agricultura estão entre os mais preocupantes. A drenagem ácida de minas (AMD) é um produto da atividade mineira que é um efluente acídico com altas concentrações de vários metais, contaminação esta que pode levar à erosão genética de populações. Em Daphnia sp., foi descoberto que a tolerância ao cobre está correlacionada com a tolerância à AMD e pode ser utilizada para estudar a erosão genética provocada pela AMD. Para melhor perceber dois objetivos específicos foram delineados no presente trabalho, calcular a heritabilidade e a herança da tolerância ao cobre em Daphnia magna. Ephippia de D. magna foram obtidos de duas fontes diferentes: (1) uma fonte comercial que produz ephippia apartir de culturas de massa uni-clonais e (2) um lago natural onde ephippia foram colhidas de uma única vez. A heritabilidade da tolerância ao cobre foi estudada, baseada em testes de toxicidade de tempo até à morte em mais de 200 clones de duas fontes diferentes, onde foram obtidos valores de 71 e 82% de heritabilidade para os clones oriundos da fonte M e B, respetivamente. O relative spread foi também calculado para cada clone e comparado com a tolerância do respetivo clone, mostrando que os clones mais extremos (os mais tolerantes e os mais sensíveis) têm variabilidades menores. vi Para avaliar a herança, a indução da reprodução sexuada foi tentada através da estimulação da produção de ephippia num grupo de 24 clones selecionados, 12 clones de cada fonte, sendo os 6 mais sensíveis e os 6 mais tolerantes ao cobre. No entanto, não tenha sido conseguida qualquer produção de ephippia. Assim, não foi possível estudar a herança da tolerância ao cobre em D. magna. Em suma, a larga distribuição de tolerâncias, as variabilidades baixas em clones extremos e a alta heritabilidade mostram que a tolerância ao cobre pode facilmente ser envolvida em episódios de microevolução. Apesar de em todos os objetivos propostos terem sido alcançados, este trabalho representa nova informação e uma contribuição significante para o estudo da microevolução da tolerância em Daphnia magna.
Inglis, Colleen. "The effect of copper on kairomone-mediated responses by wild Daphnia pulicaria clones from along a copper gradient". Thesis, 2009. http://hdl.handle.net/1974/5372.
Texto completoThesis (Master, Biology) -- Queen's University, 2009-12-23 09:50:46.152
張嘉渝. "The effect of heat pretreatment on copper-tolerance of Chlamydomonas reinhardtii". Thesis, 2010. http://ndltd.ncl.edu.tw/handle/84792089548384193460.
Texto completoLee, Kuo-ting y 李國婷. "The MAP Kinase Kinase MKK2 Pathway Affects Copper Tolerance in Arabidopsis". Thesis, 2008. http://ndltd.ncl.edu.tw/handle/05461840430876509934.
Texto completo國立成功大學
生命科學系碩博士班
96
Eukaryotic mitogen-activated protein kinase (MAPK) signalling pathway acts downstream of receptors or sensors to transduce extracellular stimuli, including abiotic and biotic stresses, into adaptive, intracellular responses. A MAPK pathway minimally consists of a MAPKKK-MAPKK-MAPK module. The Arabidopsis thaliana MKK1 and MKK2 MAP kinase kinases have been implicated in biotic and abiotic stress responses, but the role of the MKK2 in metal signalling pathway is unknown. In this study, we evaluated the role of the MKK2 in regulating copper stress responses in Arabidopsis . Overexpressing of MKK2 enhanced Arabidopsis resistance to copper stress. When wild type, mkk2 and MKK2-EE4 seedlings were subjected to copper treatment for 7 days, the root elongation of MKK2-EE4 plants were significantly higher than the wild type and mkk2 mutant plants. Copper induced cell death was reduced and reactive oxygen species (ROS) production was accumulated in MKK2-EE4 plants compared with wild type and mkk2 mutant plants. In addition, 200 μM copper supply resulted in higher copper concentration in mkk2 mutant roots as compared to wild type, and the copper concentration in MKK2-EE4 roots was lower than the wild type plants. Taken together these results demonstrate that MKK2 signalling is involved in Arabidopsis copper tolerance and the uptake and storage of copper are also affected by this signalling pathway.
Neves, Simão Pedro Branco da Silva. "Tolerance response of Solanum cheesmaniae and Solanum lycopersicum to copper: the role of the antioxidant system and copper transporters". Master's thesis, 2015. http://hdl.handle.net/1822/44420.
Texto completoCopper (Cu) is an abundant heavy metal (HM) in the environment due to anthropogenic activities and natural sources. In excess, Cu easily become phytotoxic to most species, once this HM can interfere with essential nutrient uptake from rhizosphere. Therefore, Cu accumulation in plants is considered a threat to the environment and public health since it can easily enter food chains. Thus, the development of new strategies that ensure both crop yield and nutritional quality is of most importance. The present study aimed to compare the physiological and molecular responses of Solanum cheesmaniae and Solanum lycopersicum to Cu stress, in particular those related to antioxidant defense and to Cu transport and compartmentation. Some studies are already available regarding the responses of S. lycopersicum to Cu excess, so we wanted to address the hypothesis that S. cheesmaniae is more adapted to Cu stress than S. lycopersicum, since the former is more resistant to salt stress than the latter. Results showed that the germination rate of S. lycopersicum seeds were not affected by up to 2.5 mM Cu 7 days after treatment, while higher Cu concentrations negatively affected the growth of the seedlings and induced signs of necrosis and cell death. The application of 250 μM Cu negatively affected biometric parameters of both species cultivated in 0.25 x Hoagland solution for 28 days, but the biomass and length of both roots and shoots of S. lycopersicum plants were more affected by Cu stress. Cu treatment did not significantly alter chlorophylls and carotenoids levels in both species. Biomarkers of oxidative status (TBARS, H2O2 and O2.- levels) revealed a more pronounced imbalance in the redox homeostasis in shoots of S. lycopersicum plants treated with excess Cu than in S. cheesmaniae. Quantification of total phenols and flavonoids demonstrated an activation of the non-enzymatic antioxidant system in both species in response to excess Cu. Furthermore, the activity of key antioxidant enzymes clearly differed in both species in response to Cu, apart superoxide dismutase (SOD) whose activity increased in the roots of S. cheesmaniae and S. lycopersicum. Ascorbate peroxidase (APX) activity increased in S. cheesmaniae shoots and decreased in S. lycopersicum roots, while catalase (CAT) activity decreased in both species, except in S. cheesmaniae shoots. Cu quantification performed by flame-atomic absorption spectroscopy showed that both species preferentially accumulated Cu in the radicular system, though a great increase in the aerial parts of S. lycopersicum was also measured. The response to Cu excess of S. lycopersicum and S. cheesmaniae COPT4, COPT5 and COPT6, which are small integral membrane proteins that catalyze Cu uptake into cells, was also investigated by qPCR analysis. Results showed that SlCOPT5 expression increased by 30-fold in roots of S. lycopersicum cultivated with excess Cu, suggesting that it may have a pivotal role in Cu homeostasis in roots. Overall, results validated the hypothesis that S. cheesmaniae is more tolerant to excess Cu than S. lycopersicum and the new knowledge will facilitate future work on the development of breeding strategies.
O cobre (Cu) é um metal pesado (MP) abundante na natureza, estando os seus níveis a aumentar devido a atividades antropogénicas e a causas naturais. Em excesso, o Cu torna-se facilmente fitotóxico para a maior parte das espécies, uma vez que este MP é capaz de interferir com a assimilação e absorção de nutrientes essenciais a partir da rizosfera. Neste sentido, a acumulação de Cu pelas plantas é já considerada uma grande ameaça para o ambiente e saúde pública, dado que este elemento consegue entrar nas cadeias alimentares de uma forma relativamente rápida. Assim, torna-se crucial desenvolver novas estratégias que permitam garantir a produtividade e qualidade nutricional das culturas. O principal objetivo do presente trabalho consistiu no estudo comparativo de algumas respostas moleculares e fisiológicas de Solanum cheesmaniae e Solanum lycopersicum expostas a elevados níveis de Cu, em particular ao nível do sistema antioxidante e dos mecanismos de transporte e compartimentalização do Cu. Estudos anteriores evidenciaram algumas das respostas de S. lycopersicum ao excesso de Cu, pelo que no presente trabalho pretendemos validar a hipótese que S. cheesmaniae é uma espécie mais tolerante ao Cu que S. lycopersicum, uma vez que é mais resistente ao stress salino. A taxa de germinação de sementes de S. lycopersicum não foi afetada por concentrações crescentes de Cu até 2,5 mM avaliada após 7 dias de exposição, ainda que para as concentrações superiores o crescimento das plântulas tenha sido inibido e se tenham desenvolvido diversos sinais de necrose e morte celular. Os nossos resultados demonstraram que os parâmetros biométricos de ambas as espécies, irrigadas com uma solução nutritiva de 0.25 x Hoagland durante 28 dias, foram afetados pela aplicação de Cu a 250 μM, embora a produção de biomassa e o comprimento da raiz e da parte aérea de S. lycopersicum tenham sido claramente mais afetados. O tratamento com Cu não alterou de forma significativa o teor em clorofilas e carotenoides. Os marcadores de stress oxidativo (conteúdo de TBARS, H2O2 e O2.-) revelaram um maior desequilíbrio da homeostasia redox na parte aérea de plantas de S. lycopersicum tratadas com excesso de Cu, quando comparadas com S. cheesmaniae. A quantificação dos fenóis totais e dos flavonoides revelou a ativação da componente não enzimática do sistema antioxidante em ambas as espécies. Para além disso, a atividade das principais enzimas antioxidantes em reposta ao excesso de Cu diferiu bastante entre as duas espécies, com a exceção da superóxido dismutase (SOD), cuja atividade aumentou nas raízes de S. cheesmaniae e S. lycopersicum. A atividade da peroxidase do ascorbato (APX) aumentou na parte aérea de S. cheesmaniae e decresceu significativamente nas raízes de S. lycopersicum, enquanto a atividade da catalase (CAT) registou uma diminuição em ambas as espécies, à exceção da parte aérea de S. cheesmaniae. A quantificação do Cu nos tecidos vegetais, através espectroscopia de absorção atómica de chama, revelou que ambas as espécies acumularam mais Cu no sistema radicular, ainda que se tenha também verificado um aumento considerável na parte aérea de plantas de S. lycopersicum. Paralelamente foi avaliado por qPCR o envolvimento dos transportadores de Cu COPT4, COPT5 e COPT6 de S. lycopersicum e S. cheesmaniae em resposta ao excesso de Cu. Os resultados mostraram que a expressão relativa do gene SlCOPT5 aumentou cerca de 30 vezes em raízes de plantas de S. lycopersicum cultivadas na presença de excesso de Cu, sugerindo que este transportador tem um papel de destaque na homeostasia do Cu ao nível dos tecidos da raiz. No seu conjunto, os resultados permitiram validar a hipótese que S. cheesmaniae é uma espécie mais tolerante ao Cu do que S. lycopersicum e obter evidências experimentais importantes para o desenho de estratégias de melhoramento.
Sousa, Filipa Rodrigues de. "Wrack as a strategy to increase Hordeum vulgare L. tolerance to copper contaminated soils". Master's thesis, 2020. https://hdl.handle.net/10216/132033.
Texto completoSousa, Filipa Rodrigues de. "Wrack as a strategy to increase Hordeum vulgare L. tolerance to copper contaminated soils". Dissertação, 2020. https://hdl.handle.net/10216/132033.
Texto completo(9780491), Karina Griffin. "Copper tolerance in Pseudomonas syringae pv. tomato isolates from tomato crops in Eastern Australia". Thesis, 2019. https://figshare.com/articles/thesis/Copper_tolerance_in_Pseudomonas_syringae_pv_tomato_isolates_from_tomato_crops_in_Eastern_Australia/13409477.
Texto completoRousos, Penelope Ann. "The identification and physiological basis of tolerance of cabbage to copper toxicity in solution culture". 1986. http://catalog.hathitrust.org/api/volumes/oclc/14695929.html.
Texto completoHii, Mei Mei. "Role of ORF pCT0018 for copper homeostasis in Listeria monocytogenes strain DRDC8". 2009. http://hdl.handle.net/2440/57906.
Texto completohttp://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1374407
Thesis (M.Sc.) - University of Adelaide, School of Molecular and Biomedical Science, 2009
BRESNEHAN, AMANDA. "FLEEING PREDATION: THE EFFECT OF COPPER EXPOSURE ON INDUCIBLE ANTIPREDATOR DEFENSES IN DAPHNIA PULICARIA CLONES FROM A HISTORICALLY METAL CONTAMINATED LAKE". Thesis, 2012. http://hdl.handle.net/1974/7045.
Texto completoThesis (Master, Biology) -- Queen's University, 2012-04-03 19:33:59.137
GIORNI, ELISABETTA. "Responses to environmental stresses in metallicolous and non metallicolous Silene paradoxa L. populations". Doctoral thesis, 2017. http://hdl.handle.net/2158/1080136.
Texto completoWright, Kevin Matthew. "Theoretical and Emperical Investigations into Adaptation". Diss., 2010. http://hdl.handle.net/10161/2475.
Texto completoThe problem is two fold: how does natural selection operate on systems of interacting genes and how does natural selection operate in natural populations. To address the first problem, I have conducted a theoretical investigation into the evolution of control and the distribution of mutations in a simple system of interacting genes, a linear metabolic pathway. I found that control is distributed unevenly between enzymes, with upstream enzymes possessing the greatest control and accumulating the most beneficial mutations during adaptive evolution. To address the second problem, I investigated the evolution of copper tolerance in the common yellow monkeyflower, Mimulus guttatus. I genetically mapped a major locus controlling copper tolerance, Tol1. A Dobzhansky-Muller incompatibility was hypothesized to also be controlled by Tol1, however, we have demonstrated that it maps to another, tightly linked locus, Nec1. Finally, we investigated the parallel evolution of copper tolerance in multiple new discovered mine populations. We found that copper tolerance has evolved in parallel multiple times via at least two distinct physiological mechanisms. In four mine populations, there was a strong signal of selection at markers linked to Tol1, implying that copper tolerance has evolved via the same genetic mechanisms in these populations.
Dissertation
Garton, Jeffrey Earl. "Evaluation of race and copper tolerant strains of Xanthomonas axonopodis pv. vesicatoria, causal agent of bacterial leaf spot of bell pepper in Georgia". 2009. http://purl.galileo.usg.edu/uga%5Fetd/garton%5Fjeffrey%5Fe%5F200912%5Fms.
Texto completo