Tesis sobre el tema "Non photochemical quencing"
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Yokoyama, Ryo. "Functional Link Between Photoprotection Mechanisms and Thylakoid Structures in Plants". 京都大学 (Kyoto University), 2017. http://hdl.handle.net/2433/225440.
Texto completoJohansson, Jänkänpää Hanna. "Stress responses of Arabidopsis plants with a varying level of non-photochemical quenching". Doctoral thesis, Umeå universitet, Institutionen för fysiologisk botanik, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-48566.
Texto completoÖverskottsenergi kan vara skadligt för en växts membran och fotosynteskomplex. Vid överskott av solenergi blir fotosystemen mättade och växten behöver därför ett sätt för att göra sig av med all överskottsenergi, detta kallas för ”icke-fotokemisk quenching” (NPQ). Fotokemisk quenching (fotosyntes), NPQ och fluoresens är tre alternativa vägar för exalterade klorofyller. PsbS är involverad i NPQ och associerar med fotosystem II. De resultat som presenteras i denna avhandling kommer från studier av modellväxten Arabidopsis thaliana (Backtrav), i huvudsak gjorda på vildtypen i jämförelse med en mutant som saknar PsbS (npq4) och en transgen som överuttrycker PsbS (oePsbS). Vi har försökt att undersöka kopplingen mellan ljus- och herbivoristress och visar här att mängden PsbS påverkar både en specialist (Plutella) och en generalist (Spodoptera) insekt vid val av föda, samt Plutella även vid äggläggning. Växternas nivå av PsbS visade sig även påverka metabolomet och transkriptomet, och vi fann en uppreglering av gener i biosyntesen för jasmonat samt mer av själva hormonet jasmonat i npq4 växter efter herbivori. Eftersom vi har gjort många av experimenten ute i fält har vi även karakteriserat en typisk Arabidopsis växt i fält samt hur denna skiljer sig från den vanligt använda lab-växten. Dessutom har vi även undersökt naturlig variation av NPQ av Arabidopsis både i fält och på lab och resultaten visar, till vår förvåning, att det inte går att finna någon korrelation mellan dessa.
Marshall, H. L. "Photoinhibition of primary production in marine phytoplankton : modelling photon damage and non-photochemical quenching". Thesis, Swansea University, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.638011.
Texto completoTaddei, Lucilla. "The role of the LHCX light-harvesting complex protein family in diatom photoprotection". Thesis, Paris 6, 2016. http://www.theses.fr/2016PA066219/document.
Texto completoDiatoms dominate phytoplanktonic communities in contemporary oceans, contributing to 20% of global primary productivity. In their extremely variable environment, diatoms are especially efficient in adjusting their photosynthetic activity by dissipating as heat the light energy absorbed in excess, through a process called “Non-Photochemical Quenching of chlorophyll fluorescence”, (NPQ). In the model diatom Phaeodactylum tricornutum, it has been shown that LHCX1, a photosynthetic antenna-related gene, is involved in the NPQ process. Through integrated approaches of genetics, molecular biology, biochemistry, study of the kinetics of chlorophyll fluorescence yields and ultrafast spectroscopy, I studied the role of the LHCX family in the photoprotection activity of P. tricornutum. I first correlated a differential regulation of the 4 P. tricornutum LHCX genes with different dynamics of NPQ and photosynthetic activity, in different light and nutrient conditions. By localizing the LHCXs in fractioned photosynthetic complexes and the different sites of energy dissipation, I was able to propose a model of dynamic regulation of NPQ capacity involving mainly the LHCX1 in the reaction centers, during short-term high light responses. During prolonged high light stress, the quenching occurs mainly in the antennas, potentially mediated by the LHCX3 isoform. Finally, using photosynthetic parameters, I screened a series of transgenic lines putatively deregulated in their LHCX amount, and I identified lines with altered NPQ, which could represent novel investigation tools. Altogether, this work highlighted the functional diversification and the importance of the LHCX protein family in the fine-tuning of light harvesting and photoprotection capacity, possibly contributing to explain diatoms success in their highly fluctuating environment
Cendrero, Mateo Maria del Pilar. "Chlorophyll Fluorescence Response to Water and Nitrogen Deficit". Diss., The University of Arizona, 2013. http://hdl.handle.net/10150/312504.
Texto completoPaul, Suman [Verfasser], Alfred R. [Akademischer Betreuer] Holzwarth y Claus A. M. [Akademischer Betreuer] Seidel. "Non-photochemical quenching mechanisms in plants - light induced reorganization of the thylakoid membrane / Suman Paul. Gutachter: Alfred R. Holzwarth ; Claus A. M. Seidel". Düsseldorf : Universitäts- und Landesbibliothek der Heinrich-Heine-Universität Düsseldorf, 2014. http://d-nb.info/1052993710/34.
Texto completoHernández-Prieto, Miguel Angel. "The Small Cab-like Proteins in the cyanobacterium Synechocystis sp. PCC 6803". Doctoral thesis, Umeå universitet, Kemi, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-25886.
Texto completoGiossi, Chiara. "Photoacclimation and photoprotection strategies in siphonous green algae of the order Bryopsidales (Codium tomentosum and Bryopsis plumosa)". Master's thesis, Alma Mater Studiorum - Università di Bologna, 2020. http://amslaurea.unibo.it/19835/.
Texto completoRousso, Benny Z. "Optimization of cyanobacteria bloom management through improved forecasting models and optical sensors". Thesis, Griffith University, 2022. http://hdl.handle.net/10072/412995.
Texto completoThesis (PhD Doctorate)
Doctor of Philosophy (PhD)
School of Eng & Built Env
Science, Environment, Engineering and Technology
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Wilson, Flore Adjélé. "Étude du mécanisme de photoprotection lié à l’Orange Carotenoid Protein et ses homologues chez les cyanobactéries". Thesis, Université Paris-Saclay (ComUE), 2016. http://www.theses.fr/2016SACLS503/document.
Texto completoPhotosynthetic organisms use light energy from the sun in order to perform photosynthesis and to convert solar energy into chemical energy. Absorbance of excess light energy beyond what can be consumed in photosynthesis is dangerous for these organisms. Reactive oxygen species (ROS) are formed at the reaction centers and collecting light antennas inducing photooxidative damage which can lead to cell death. In cyanobacteria, one of these photoprotective mechanisms consists to reduce the amount of energy arriving to the reaction centers by thermal dissipation of the excess absorbed energy. Energy dissipation is accompanied by a decrease of Photosystem II-related fluorescence emission called non-photochemical quenching (NPQ). The soluble Orange Carotenoid Protein (OCPo) is essential for this photoprotective mechanism. The OCP is the first photo-active protein with a carotenoid known as light intensity sensor and acts as energy quencher of the phycobilisome (PB), the extra-membrane antenna of cyanobacteria. Structural changes occur when the OCPo absorbs a strong blue-green light leading to a red active form (OCPr). The N-terminal domain of OCPr burrows into the two external trimers of the core basal APC cylinders of the PB and increases thermal energy dissipation at the level of antenna. The OCP has an additional function in photoprotection as oxygen singlet quencher protecting cells from oxidative stress. Under low light conditions, to recover the full antenna capacity, a second protein is needed, the "Fluorescence Recovery Protein" (FRP), whose role is to detach the OCPr from the PB and accelerate its conversion into an inactive OCPo. In this manuscript, I will review the knowledge about the OCP, since the discovery of the mechanism and its characterization to the latest advances on the OCP-related-NPQ mechanism in cyanobacteria
Pniewski, Filip Franciszek. "Capacité photosynthétique du microphytobenthos des vasières intertidales de la Baie de l'Aiguillon (Côte atlantique, France) et des lagunes non-tidales de faible profondeur de la Baie de Puck (Mer Baltique, Pologne)". Thesis, La Rochelle, 2010. http://www.theses.fr/2010LAROS300.
Texto completoThe scope of this thesis includes the characteristics and comparison of photosynthetic activity and photoprotection mechanisms of microphytobenthos assemblages inhabiting the Atlantic intertidal mudflats of Aiguillon Bay (Esnandes, France) and the littoral zone of the Baltic Sea in non-tidal Puck Bay (Władysławowo, Poland). In order to accomplish the main aims of the work the following tasks were carried out: (1) characterization of microphytobenthic assemblages; (2) characterization of their photosynthetic activity and (3) description of photoinhibition and photoprotective mechanisms. The structure of microphytobenthos was described based on observation of the material in light microscope (LM) and through the characteristics of photosynthetic pigments using high performance liquid chromatography (HPLC). Photosynthetic activity was described using various methods including classical (volumetric micro-respirometer) and modern (chlorophyll a fluorescence) ones. In addition, the measurements of variable fluorescence were also used to study photoinhibition and photoprotective mechanisms. Based on the obtained results it was stated that:1.) the Atlantic assemblages were strongly dominated by epipelic diatoms, while the Baltic microphytobenthos was more diverse and cyanobacteria, next to diatoms, were also very important component,2.) it was shown that the Atlantic microphytobenthos was well acclimated to rather low light intensities, while the Baltic assemblages showed good utilization of higher irradiance,3.) the Atlantic diatoms were more susceptible to photoinhibition than the Baltic microalgae,4.) the photosynthetic activity described for the undisturbed microphytobenthos communities revealed circadian and circatidal rhythms, which seemed to be controlled by endogenous factors, supporting diatoms’ behavioural adaptations i.e., vertical migration,5.) in case of the Baltic microphytobenthos, the lack of the ability to move caused their physiological processes the first line of defence against excess irradiances. The analysis revealed extreme flexibility of PSII which was able to follow rapidly the short-term changes in ambient light
Gilmore, Adam Matthew. "Biochemistry of xanthophyll-dependent non-photochemical fluorescence quenching in isolated chloroplasts". Thesis, 1992. http://hdl.handle.net/10125/9472.
Texto completoTsai, You-Chun y 蔡友淳. "An investigation of non-photochemical quenching of photosynthesis through chlorophyll a fluorescence lifetime". Thesis, 2017. http://ndltd.ncl.edu.tw/handle/gwtr5h.
Texto completo國立交通大學
光電科技學程
106
In this thesis, I applied fluorescence lifetime technique to study the regulation of non-photochemistry quenching (NPQ) pathways in living Chlorella sp. cells. The goal is to find the best culture condition for Chlorella sp., so that the cells have balanced NPQ while having optimized photosynthesis efficiency. When exposed to light of different intensity, the starting lifetime of chlorophyll a during fluorescence transient changed. The stronger the intensity, the longer the starting fluorescence lifetime. This is because illumination intensity above certain level causes photosystem II reaction centers to close. It is a photoprotection mechanism that prevents excess energy to damage cells. The excess energy is then released as fluorescence. While the ratio of open/closed reaction centers decides photosynthesis efficiency, fluorescence lifetime measurement provides a way to find the optimal light intensity for desired ratio of open/closed reaction centers. Non-photochemistry quenching pathways include qE (Energy-dependent quenching), qT (State transition), and qI (Photo-inhibition). In this thesis, I discussed qE and qT mechanisms and their effects on photosynthesis efficiency. qT is activated under low light and lasts from seconds to minutes. qE is activated by stronger light, and responses differently as light wavelength varies; the reaction acts tens of minutes. I designed an illumination setup to stimulate either qE or qT response. I took continuous fluorescence lifetime measurement when either qE or qT was activated, and then calculated the corresponding photosynthesis efficiency. I demonstrated the advantages of fluorescence lifetime technique in studying non-photochemical quenching pathways and photosynthesis efficiency. The results in this thesis might contribute to research field related to food crisis and green energy.
Miloslavina, Yuliya [Verfasser]. "On the mechanisms of non-photochemical quenching in plants and diatoms / vorgelegt von Yuliya Miloslavina". 2008. http://d-nb.info/992770300/34.
Texto completo"Synthesis and Photophysical Characterization of an Artificial Photosynthetic Reaction Center Exhibiting Acid-Responsive Regulation of Charge Separation". Doctoral diss., 2015. http://hdl.handle.net/2286/R.I.29909.
Texto completoDissertation/Thesis
Doctoral Dissertation Chemistry 2015
CHARVÁT, Filip. "Efektivní velikost světlosběrných antén a její význam pro regulaci fotosyntézy". Master's thesis, 2018. http://www.nusl.cz/ntk/nusl-375728.
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