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Provedor de dados:  ArchiMer
País:  France
Título:  Carbon Orientation in the Diatom Phaeodactylum tricornutum: The Effects of Carbon Limitation and Photon Flux Density
Autores:  Heydarizadeh, Parisa
Veidi, Brigitte
Huang, Bing
Lukomska, Ewa
Wielgosz-collin, Gaetane
Couzinet-mossion, Aurélie
Bougaran, Gael
Marchand, Justine
Schoefs, Benoit
Data:  2019-04
Ano:  2019
Palavras-chave:  Diatom
Carbon deficiency
Carbon metabolism
Light intensity
Resumo:  Diatoms adapt to changing environmental conditions in very efficient ways. Among the mechanisms that can be activated, the reorientation of carbon metabolism is crucial because it allows the storage of energy into energy-dense molecules, typically lipids. Beside their roles in physiology, lipids are commercially interesting compounds. Therefore studies dealing with this topic are relevant for both basic and applied science. Although the molecular mechanisms involved in the reorientation of carbon metabolism as a response to a deficiency in nutrients such as nitrogen or phosphorus has been partially elucidated, the impacts of carbon availability on the implementation of the reorientation mechanisms remain unclear. Indeed, it has not been determined if the same types of mechanisms are activated under carbon and other nutrient deficiencies or limitations. The first aim of this work was to get insights into the physiological, biological and molecular processes triggered by progressive carbon starvation in the model diatom Phaeodactylum tricornutum. The second aim was to investigate the effects of the growth light intensity on these processes. For such a purpose three different photon flux densities 30, 300, and 1000 μmol photons m-2 s-1 were used. The results presented here demonstrate that under carbon limitation, diatom cells still reorient carbon metabolism toward either phosphoenolpyruvate or pyruvate, which serves as a hub for the production of more complex molecules. The distribution of carbon atoms between the different pathways was partially affected by the growth photon flux density because low light (LL) provides conditions for the accumulation of chrysolaminarin, while medium light mostly stimulated lipid synthesis. A significant increase in the amount of proteins was observed under high light (HL).
Tipo:  Text
Idioma:  Inglês

Editor:  Frontiers Media SA
Formato:  application/pdf
Fonte:  Frontiers In Plant Science (1664-462X) (Frontiers Media SA), 2019-04 , Vol. 10 , N. 471 , P. 16p.
Direitos:  info:eu-repo/semantics/openAccess

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