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Funktionelle Analyse der Phytochrome Cph1 und Cph2 von Synechocystis Sp. PCC 6803Fiedler, Brita 21 July 2005 (has links)
In der vorliegenden Arbeit wurde die Funktion der beiden cyanobakteriellen Phytochrome Cph1 und Cph2 untersucht. Dafür wurde zunächst das Wachstum von Mutanten mit einem inaktivierten cph1- bzw. cph2-Gen unter verschiedenen Lichtbedingungen analysiert. Das Wachstum aller Phytochrommutanten war unter Starklicht beeinträchtigt. Dahingegen wuchs die cph1-Mutante im FRL schlechter als der Wildtyp, während das Wachstum der cph2-Mutante im RL vermindert war. Eine cph1/cph2-Doppelmutante zeigte unter allen Lichtbedingungen eine Wachstumsreduktion, die der jeweiligen Einzelmutante ähnlich war. Die genaue Ursache für die Beeinträchtigung des Wachstums der Phytochrommutanten konnte nicht ermittelt werden. Die verschiedenen Aspekte der Photosynthese, wie Pigmentzusammensetzung, maximale Netto-Sauerstofffreisetzungsrate und 77K-Fluoreszenzemission, waren in den Phytochrommutanten nicht signifikant verändert. Bei Synechocystis sp. PCC 6803 konnte eine lichtgerichtete Bewegung beobachtet werden, wobei man aufgrund von Aktionsspektren der Motilität eine Funktion der Phytochrome oder phytochromähnlichen Proteine bei der Steuerung der phototaktischen Bewegung vermutet. Dem Cph1-Protein konnte hierfür keine Rolle zugeordnet werden. Dahingegen scheint der Photorezeptor Cph2 die lichtgerichtete Bewegung der Zellen in Richtung einer Blaulichtquelle zu inhibieren. Eine Interaktion mit einem klassischen Blaulicht-Rezeptor konnte ausgeschlossen werden. / The function of the cyanobacterial phytochromes Cph1 and Cph2 was investigated. At first, the growth of mutants with an inactivated cph1 or cph2 gene was analysed under different light conditions. The growth of all phytochrome mutants was affected under high-light conditions. However, the cph1 mutant grew slower than the wild type in far-red light, whilst the cph2 mutant revealed a reduced growth under red light conditions. A decreased growth of the cph1/cph2 double mutant was observed under all light conditions with a growth rate similar to the corresponding single mutant. The exact reason for the growth impairment of the phytochrome mutants could not be ascertained. Different aspects of photosynthesis (pigment composition, maximal net-oxygen evolution and 77K fluorescence emission) were not changed significantly in the phytochrome mutants. Synechocystis sp. PCC 6803 shows a movement towards a light source. Based on action spectra of motility phytochromes and phytochrome-like proteins are supposed to have a function in regulating the phototactic movement. An influence of the Cph1 protein in the phototactic movement was not demonstrated. Whereas, the Cph2 protein seems to be involved in the inhibition of the cell movement towards blue light. An interaction with a typical blue-light receptor was excluded.
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シアノバクテリアにおける高頻度なin vivoのトランスポゾンタギング系の開発およびその系を利用したChl dを利用するシアノバクテリア、Acaryochloris marinaにおける順遺伝学的解析の確立 / Development of a high-frequency in vivo transposon mutagenesis system for cyanobacteria and establishment of the forward genetic analysis of the Chl d-dominated cyanobacterium, Acaryochloris marina by use of the system渡部, 和幸 23 March 2015 (has links)
Kyoto University (京都大学) / 0048 / 新制・課程博士 / 博士(人間・環境学) / 甲第19069号 / 人博第722号 / 新制||人||173 / 32020 / 京都大学大学院人間・環境学研究科相関環境学専攻 / (主査)准教授 土屋 徹, 教授 宮下 英明, 教授 川本 卓男 / 学位規則第4条第1項該当
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Development of a high-frequency in vivo transposon mutagenesis system for cyanobacteria and establishment of the forward genetic analysis of the Chl d-dominated cyanobacterium, Acaryochloris marina by use of the system / シアノバクテリアにおける高頻度なin vivoのトランスポゾンタギング系の開発およびその系を利用したChl dを利用するシアノバクテリア、Acaryochloris marinaにおける順遺伝学的解析の確立Watabe, Kazuyuki 23 March 2015 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(人間・環境学) / 甲第19069号 / 人博第722号 / 新制||人||173(附属図書館) / 26||人博||722(吉田南総合図書館) / 32020 / 京都大学大学院人間・環境学研究科相関環境学専攻 / (主査)准教授 土屋 徹, 教授 宮下 英明, 教授 川本 卓男 / 学位規則第4条第1項該当 / Doctor of Human and Environmental Studies / Kyoto University / DFAM
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FTIR Difference Spectroscopy for the Study of P700, the Primary Electron Donor in Photosystem IWang, Ruili 12 January 2006 (has links)
This thesis describes an investigation of the molecular mechanism underlying solar conversion processes that occur in Type I photosynthetic reaction centers, in which P700 plays a central role. Static Fourier transform infrared (FTIR) difference spectroscopy (DS) was used to probe the electronic and structural organization of P700 and P700+. In combination with isotope labeling and site directed mutagenesis we have investigated how protein interactions such as histidine ligation and hydrogen bonding modulate this organization. Comparison of (P700+-P700) FTIR difference spectra (DS) obtained using wild type and mutant PS I led us to suggest that the 131 keto carbonyl group of PA is essentially free from hydrogen bonding in the ground state. Upon cation formation, this hydrogen bonding becomes stronger, probably because of a cation induced reorientation of the hydroxyl group of a nearby threonine residue. We also tentatively suggested that a difference band at 1639(-)/1660(+) cm-1 in (P700+-P700) FTIR DS might be due to a C=C mode of the imidazole side chain of the ligating histidine residues. Most of this thesis is geared towards investigating the validity of this interpretation. (P700+-P700) FTIR DS obtained using mutant PS I particles in which hydrogen bonding to P700 is altered can be reconciled within the context of our new interpretation. (P700+-P700) FTIR DS obtained using uniformly 2H, 15N, and 13C labeled PS I particles also support our new interpretation, and indicate that the difference band at 1639(-)/ 1660(+) cm-1 cannot be associated with a strongly hydrogen bonded keto carbonyl group of PA. To investigate if the imidazole side-chain of ligating histidine residues could contribute to bands in (P700+-P700) FTIR DS vibrational mode frequencies and intensities for several protonation forms of 4-methylimidazole were calculated. The calculations suggest that the 1639(-)/1660(+) cm-1 band in (P700+-P700) FTIR DS may not be due to a C=C mode of the imidazole side chain of the ligating histidine residues. Thus we have produced data that suggests neither of the proposed interpretations alone can adequately explain the origin of the 1639(-)/1660(+) cm-1 difference band in (P700+-P700) FTIR DS. The origin of the 1639(-)/1660(+) cm-1 difference band in (P700+-P700) FTIR DS is therefore still an open question.
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Evoluční inženýrství cyanobakterií v kontextu akumulace PHA / Evolutionary engineering of cyanobacteria with respect to PHA accumulationVašířová, Kristýna January 2021 (has links)
The aim of this diploma thesis was to subject selected cyanobacterial strains to adaptive evolution and subsequently investigate the properties of the resulting adapted strains, especially their changes related to polyhydroxyalkanoates (PHA) accumulation. The theoretical part of the work describes in more detail the issue of cyanobacteria, PHA and their interconnection in the field of evolutionary engineering. Cyanobacterial strains Synechocystis sp 6803 and. Synechocystis salina CCALA 192 were used for evolutionary experiments. Selection pressures of hydrogen peroxide and copper. were applied to selected representatives. The resulting cultures and their ability to accumulate PHA were subsequently assessed by gas chromatography. Both of these selection pressures proved to be unsuitable, as strong growth inhibition was observed after their application to cultures, which did not allow the application of evolutionary engineering methods. In the second half of the experimental part, the provided adapted strains to 6% NaCl were monitored. Adaptation has been shown to have a positive effect on microorganisms, as they have a higher biomass content, better stress resistance and a slight increase in PHA accumulation.
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Metody kvalitativní a kvantitativní analýzy PHA v buňkách cyanobakterií / Analytical methods for qualitative and quantitative determination of PHA in cyanobacteriaČernayová, Diana January 2020 (has links)
The diploma thesis is confused to verify the applicability of selected physicochemical and spectroscopic methods for characterization of cyanobacteria, with special emphasis on possibilities of qualitative and quantitative analysis of polyhydroxyalkanoates (specifically polyhydroxybutyrate (PHB)) accumulated in cyanobacterial cells. The sample basis of the work was formed by cultures of cyanobacterial strains of Synechocystis sp. PCC 6803 and Synechocystis salina CCALA 192. The cultures were were cultivated in several ways to cover the widest possible range of physiological conditions and PHB contents, in particular using an autotrophic way of cultivation on shakers and multicultural culture method in a basic culture medium,and in media enriched with 2% salt (NaCl ) as well as mixotrophic culture media with different types of the carbon substrate. After few weeks of cultivation, cyanobacterial cultures were obtained and complexly analyzed by following techniques- cell suspensions were analyzed by flow cytometry and UV-VIS spectrometry (transmission and diffusion transmission mode), dry cell biomass was characterised by gas chromatography to obtain a exact amount of PHB, and then FT-IR spectrometry and thermogravimetric analysis. The work aimed to assess whether any of these methods can be a quick and affordable alternative to the determination of PHB content to the most commonly used method of gas chromatography, but also to assess what additional information about the physiological state of cyanobacterial cells can provide test methods. The highest correlation on PHB content was determined for the parameters determined by infrared spectroscopy, in which specific peaks from the characteristic wavelengths for polyhydroxybutyrate were important. Weak correlations on PHB content were achieved in thermogravimetric analysis and cytometry, using the hydrophobic fluorescent probe BODIPY 439/503, which bound to lipophilic parts of cells. In addition to the determination of PHB, it was possible to determine pigments present in cyanobacteria (such as chlorophyll, phycocyanin and carotenoids) by flow cytometry and UV-VIS diffusion transmission spectrometry. In the end, results from all used techniques were compared by PCA analysis to determine the similarity of all analyzed samples.
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Untersuchungen über Konsequenzen einer deregulierten Chlorophyllsynthese und funktionelle Analyse des YCF54/LCAA-Proteins in Cyanobakterien und PflanzenGirke, Annabel 18 August 2015 (has links)
Die Biosynthese von Chlorophyll ist komplex und umfasst mehr als ein Dutzend enzymatische Schritte. Es ist nur allzu selbstverständlich, dass eine Deregulation der Chlorophyllsynthese globale Effekte auf die Zelle hat. Um diese Konsequenzen näher zu beleuchten, wurden Arabidopsis thaliana Pflanzen mit chemisch induzierter Deaktivierung von zwei Chlorophyllbiosynthesegenen (CHLH bzw. CHL27) erzeugt sowie photoautotophe Zellsuspensionskulturen von Arabidopsis thaliana hinsichtlich kurzzeitig induzierter Signalprozesse untersucht. Die Resultate verdeutlichen, dass durch Fehlregulationen innerhalb der Chlorophyllbiosynthese erzeugte reaktive Sauerstoffspezies die Transkriptionskontrolle kernkodierter Gene beeinflussen. Die Untersuchung eines enzymatischen Schrittes der Chlorophyllbiosynthese trat in dieser Arbeit in den Hauptfokus: Die Bildung des fünften, isozyklischen Ringes im Chlorophyllmolekül, katalysiert durch das bisher unzureichend erforschte Enzym Mg-Protoporphyrin-IX-monomethylester-Cyclase (Cyclase). Anhand von transgenen Cyanobakterien und Pflanzen sollte das noch unbekannte Gen ycf54 hinsichtlich seiner physiologischen Funktion in dem Cyclase-Enzymschritt analysiert werden. Das Fehlen von Ycf54 in Synechocystis sp. PCC6803 bzw. des homologen LCAA-Proteins in Nicotiana tabacum und Arabidopsis thaliana führt zu starken Cyclase-Substrat-Akkumulationen, verringerten Chlorophyllgehalten und reduzierten Ycf59- bzw. CHL27-Proteingehalten. Ein Mangel von Ycf54/LCAA beeinträchtigt daher die Funktionalität des Cyclase-Komplexes und scheint sich zudem interessanterweise auch auf die Stabilität photosynthetischer Antennenkomplexe auszuwirken. Mittels Pulldown-Assays konnte für Arabidopsis thaliana die direkte physikalische Interaktion zwischen LCAA und CHL27 bestätigt werden. Darüber hinaus sind erste Hinweise für die Ferredoxin-NADP-Reduktase als potenziellen Interaktionspartner gezeigt. / Synthesis of chlorophyll is a complex metabolic process and encompasses more than a dozen enzymatic reactions. It is self-evident that a deregulation of chlorophyll biosynthesis evokes global cellular impacts. To elucidate these consequences Arabidopsis thaliana plants with chemically inducible deactivation of two chlorophyll biosynthesis genes (CHLH and CHL27, respectively) were generated and photoautotrophic cell suspension cultures of Arabidopsis thaliana were used for short induced signal processes. The results illustrate that reactive oxygen species provoked by a deregulated chlorophyll synthesis affect the control of transcription of nuclear genes. The investigation of one enzymatic step of chlorophyll biosynthesis was placed as main focus: The formation of the isocyclic ring of the chlorophyll molecule catalyzed by the Mg protoporphyrin IX monomethyl ester cyclase (short: cyclase), an enzyme which is not fully investigated so far. The still unknown hypothetical chloroplast open reading frame (ycf) ycf54 should be analyzed concerning it’s physiological function in the enzymatic step of the cyclase using transgenic cyanobacteria and plants. Lack of Ycf54 in Synechocystis sp. PCC6803 and the homologous LCAA protein in Nicotiana tabacum and Arabidopsis thaliana, respectively, leads to chlorophyll deficiency, a strong accumulation of the cyclase substrate and reduced protein contents of Ycf59 and CHL27, respectively. A deficit of Ycf54/LCAA impairs the functionality of the cyclase complex and also might compromise the stability of photosynthetic antenna complexes. Using pull-down assays a direct physical interaction between LCAA and CHL27 could be confirmed. Additionally, first evidences for ferredoxin NADP reductase as a potential interaction partner was given.
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Construction et analyse de mutants de la machinerie de photoproduction d'hydrogène chez la cyanobactérie modèle Synechocystis / Construction and analysis of mutants of the hydrogen photoproduction machine in the model cyanobacterium SynechocystisOrtega-Ramos, Marcia 13 January 2014 (has links)
Les microorganismes photosynthétiques suscitent un intérêt biotechnologique grandissant pour la production de dihydrogène (H₂) à partir d'eau et d'énergie solaire en préservant l'eau douce et les terres cultivables sans ajout d'engrais. La cyanobactérie modèle Synechocystis PCC 6803 est capable de produire du H₂ de manière faible et transitoire grâce à une hydrogénase [NiFe] bidirectionnelle Hox. Cette enzyme possède 5 sous-unités protéiques (HoxEFUYH) qui catalysent la réaction réversible : 2H⁺ + 2e⁻ ↔ H₂. Le site actif [NiFe] de cette enzyme est assemblé par un complexe de six protéines HypABCDEF. L’hydrogénase est ensuite maturée par une protéase HoxW qui clive la sous-unité HoxH et active le site catalytique [NiFe]. L’ingénierie de cyanobactéries pour la photoproduction biologique d’H₂ passe par une meilleure compréhension du rôle de l'hydrogénase dans le métabolisme cyanobactérien. Au cours de ma thèse, j’ai construit et analysé 7 mutants sophistiqués de Synechocystis permettant la surexpression simultanée (constitutive ou régulée par la température de croissance) des gènes hoxEFUYHW et hypABCDEF. On a ainsi montré que la surproduction simultanée des protéines HoxEFUYHW et HypABCDEF combinée à une augmentation de la disponibilité de nickel dans le milieu conduit à une augmentation de l’activité hydrogénase d’un facteur 20. D’autre part, un mutant dépourvu de l'opéron hoxEFUYH a permis également de montrer que l'hydrogénase n'est pas indispensable à la croissance dans les conditions photoautotrophiques standard. La comparaison des phénotypes des divers mutants construits durant ce travail a permis également de montrer pour la première fois que l’hydrogénase joue un rôle dans la défense cellulaire contre le stress oxydant induit par le H₂O₂, par la présence de glucose ou de glycérol dans le milieu de culture. Par ailleurs, j'ai participé à la caractérisation d'un nouveau régulateur de l'expression de l’hydrogénase. Ce facteur de transcription (AbrB2) qui réprime l’opéron hoxEFUYH est impliqué dans la tolérance au stress induit par le diamide ou le nickel. Un contrôle redox de l'activité de ce régulateur par une modification post-traductionnelle de glutathionylation a été mise en évidence pour la première fois chez les cyanobactéries. L'ensemble de ces résultats démontre que l’on doit combiner plusieurs stratégies génétiques et physiologiques pour augmenter fortement la production d’hydrogène chez Synechocystis, et que nos mutants sont des outils très importants vers cet objectif. / Photosynthetic organisms are attractive organisms for hydrogen production using water and solar energy, while preserving fresh water and arable soils without adding fertilizers. The model cyanobacterium Synechocystis PCC 6803 produces small and transitory amounts of H₂ thanks to its bidirectional [NiFe] hydrogenase Hox. The Hox complex with its 5 protein subunits (HoxEFUYH) catalyzes the reversible reaction 2H⁺ + 2e⁻ ↔ H₂. The [NiFe] catalytic site of the Hox enzyme is assembled using a six-subunits HypABCDEF complex and matured by the HoxW protease that cleaves HoxH and activates its [NiFe]-containing center. Engineering cyanobacteria for hydrogen production relies on a better understanding of the role of hydrogenase in the cyanobacterium metabolism. During my PhD, I have constructed and analyzed 7 sophisticated mutants of Synechocystis, allowing the simultaneous over-expression (constitutive or regulated by the growth temperature) of the hoxEFUYH and hypABCDEF genes. We demonstrated that the simultaneous over-production of the HoxEFUYH and HypABCDEF proteins, combined to an increase in nickel availability led to an approximately 20-fold increase of the active hydrogenase level. Moreover, using a deleted hox-operon mutant we showed that hydrogenase is dispensable in standard phototrophic growth conditions. Comparing the phenotypes of different mutants constructed in this study enables us to demonstrate for the first time that the hydrogenase operates in cell protection against oxidative stress (H₂O₂) and sugar stress (glucose or glycerol). Besides, I have also participated to the characterization of a new regulator (AbrB2) of the expression of the hydrogenase. This transcription factor represses the hoxEFUYH operon and is involved in the tolerance to stress induced by diamide or nickel. For the first time in cyanobacteria, a redox control of the activity of this regulator by a post-translational gluthathionylation was identified. Collectively, our findings showed that several genetic and physiological strategies should be combined in a single strain to strongly increase hydrogen production in Synechocystis. Meanwhile the presently constructed mutants proved to be very powerful tools to achieve this goal.
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Solar Energy Conversion in Plants and Bacteria Studied Using FTIR Difference Spectroscopy and Quantum Chemical Computational MethodologiesParameswaran, Sreeja 15 July 2009 (has links)
This dissertation presents a study of the molecular mechanism underlying the highly efficient solar energy conversion processes that occur in the Photosystem I (PS I) reaction centers in plants and bacteria. The primary electron donor P700 is at the heart of solar energy conversion process in PS I and the aim is to obtain a better understanding of the electronic and structural organization of P700 in the ground and excited states. Static Fourier Transform Infra-Red (FTIR) difference spectroscopy (DS) in combination with site directed mutagenesis and Density Functional Theory (DFT) based vibrational frequency simulations were used to investigate how protein interactions such as histidine ligation and hydrogen bonding modulate this organization. (P700+-P700) FTIR DS at 77K were obtained from a series of mutants from the cyanobacterium Synechocystis sp. 6803 (S. 6803) where the amino acid residues near the C=O groups of the two chlorophylls of P700 where specifically changed. (P700+-P700) FTIR DS was also obtained for a set of mutants from C. reinhardtii where the axial ligand to A0-, the primary electron acceptor in PS I was modified. The FTIR DS obtained from these mutants provides information on the axial ligands, the hydrogen bonding status as well as the polarity of the environment of specific functional groups that are part of the chlorophyll molecules that constitute P700. Assignment of the FTIR bands to vibrational modes in specific types of environment is very difficult. In order to assist the assignment of the difference bands in experimental spectra DFT based vibrational mode frequency calculations were undertaken for Chl-a and Chl-a+ model molecular systems under different set of conditions; in the gas phase, in solvents using the Polarizable Continuum Model (PCM), in the presence of explicit solvent molecules using QM/MM methods, and in the presence of axial ligands and hydrogen bonds. DFT methods were also used to calculate the charge, spin and redox properties of Chl-a/Chl-a’ dimer models that are representative of P700, the primary electron donor in PS I.
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