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article, aluminum, privacy, cookies, content, tolerance, cells, bodies, analysis, data, information, publish, search, cyanidium, caldarium, access, log, journal, research, planta, nagasaka, nishizawa, negishi, high, found, discover, springer, site, function, optional, personal, parties, policy, find, track, ironstorage, particles, play, role, cite, seiji, naoko, takashi, kenichi, satake, satoshi, mori, etsuro, yoshimura, explore,

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month download article/chapter spherical electron-dense bodies unicellular red alga iron-storage particles electron-dense bodies function privacy choices/manage cookies full article pdf article planta aims cell-surface negativity transmission electron microscopy morphological analysis data european economic area kenichi satake normal culture conditions cryolite-alumina melts applied biological chemistry extraordinarily high aluminum algal cells cultured conditions privacy policy fe-storage site fe-accumulating substances accepting optional cookies related subjects al-treated cells journal finder publish cyanidium caldarium check access instant access article nagasaka seiji nagasaka aluminum tolerance organelles article log usage analysis personal data privacy policy books a article cite optional cookies information manage preferences high levels aluminum deposition subscription content similar content data protection essential cookies cookies skip institution subscribe bodies contributes

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         headline:Novel iron-storage particles may play a role in aluminum tolerance of Cyanidium caldarium
         description: Cyanidium caldarium (Tilden) Geitler, a unicellular red alga, has extraordinarily high aluminum (Al) tolerance. Algal cells cultured in the presence or absence of Al were subjected to transmission electron microscopy and energy dispersive X-ray analysis. Substantial changes to the thylakoid lumens were observed for the algal cells cultured in medium containing 200 mM Al, while other organelles were largely unaffected. Several spherical electron-dense bodies were found in the cytoplasm near the nucleus of both of the control and Al-treated cells. Although high levels of Fe and P were found in the bodies of control cells, immunocytochemical and morphological analysis data did not match the criteria established for Fe-accumulating substances like ferritin and phytate. In addition to these elements, Al was found in the bodies of the Al-treated cells. These results suggest that the electron-dense bodies function as an Fe-storage site under normal culture conditions, and that sequestration of Al in these bodies contributes to the high Al tolerance exhibited by C. caldarium.
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            Plant Sciences
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      headline:Novel iron-storage particles may play a role in aluminum tolerance of Cyanidium caldarium
      description: Cyanidium caldarium (Tilden) Geitler, a unicellular red alga, has extraordinarily high aluminum (Al) tolerance. Algal cells cultured in the presence or absence of Al were subjected to transmission electron microscopy and energy dispersive X-ray analysis. Substantial changes to the thylakoid lumens were observed for the algal cells cultured in medium containing 200 mM Al, while other organelles were largely unaffected. Several spherical electron-dense bodies were found in the cytoplasm near the nucleus of both of the control and Al-treated cells. Although high levels of Fe and P were found in the bodies of control cells, immunocytochemical and morphological analysis data did not match the criteria established for Fe-accumulating substances like ferritin and phytate. In addition to these elements, Al was found in the bodies of the Al-treated cells. These results suggest that the electron-dense bodies function as an Fe-storage site under normal culture conditions, and that sequestration of Al in these bodies contributes to the high Al tolerance exhibited by C. caldarium.
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