G
Gyözö Garab
Researcher at University of Ostrava
Publications - 60
Citations - 2388
Gyözö Garab is an academic researcher from University of Ostrava. The author has contributed to research in topics: Thylakoid & Photosystem II. The author has an hindex of 28, co-authored 60 publications receiving 2221 citations. Previous affiliations of Gyözö Garab include Hungarian Academy of Sciences & Brookhaven National Laboratory.
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Granum revisited. A three-dimensional model – where things fall into place
László Mustárdy,Gyözö Garab +1 more
TL;DR: A simple computer model, based on electron micrographs from serial section of granum-stroma assemblies, showing the striking 3D structure of the stroma membrane wound around the granum, provides an insight into some previously unknown functions of this intriguing multilamellar membrane system.
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The effects of salt stress on photosynthetic electron transport and thylakoid membrane proteins in the cyanobacterium Spirulina platensis.
TL;DR: It is concluded that salt stress has various effects on photosynthetic electron transport activities due to the marked alterations in the composition of thylakoid membrane proteins.
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The physiological role of ascorbate as photosystem II electron donor: protection against photoinactivation in heat-stressed leaves
TL;DR: High Asc content of leaves contributes significantly to the ability of plants to withstand heat-stress conditions, as shown in the example of Arabidopsis thaliana.
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Spectroscopic and molecular characterization of the oligomeric antenna of the diatom Phaeodactylum tricornutum
Bernard Lepetit,Daniela Volke,Milán Szabó,Ralf Hoffmann,Gyözö Garab,Christian Wilhelm,Reimund Goss +6 more
TL;DR: The spectroscopic characteristics and pigment stoichiometries of the FCPo complex were comparable to FCP complexes that were isolated after solubilization with higher detergent per chlorophyll ratios, indicating that these complexes may represent the native form of the diatom antenna system in the thylakoid membrane of P. tricornutum.
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Structural flexibility of chiral macroaggregates of light-harvesting chlorophyll a/b pigment-protein complexes. Light-induced reversible structural changes associated with energy dissipation.
TL;DR: The data strongly suggest that the structure and function of the antenna system of chloroplasts can be regulated by the absorption of excess light energy with a mechanism independent of the operation of the photochemical apparatus.