Regulation of Protochlorophyll (ide) Levels in Dark-Grown Non-Dividing Euglena 3. : Proplastid Structure during Loss and Regeneration of Protochlorophyll (ide)
スポンサーリンク
概要
- 論文の詳細を見る
Cells of Euglena gracilis Klebs var. bacillaris Cori growing in darkness on a complete medium have small undifferentiated proplastids. On transfer to an incomplete (resting) medium in darkness, the cells cease division within 72 h. During this time the proplastid expands and several prothylakoids and prolamellar bodies develop even though photo-transformable protochlorophyll(ide) [PT-Pchl(ide)] is decreasing. As PT-Pchl(ide) decreases further and reaches a stable plateau after 4-5 more days in darkness, the proplastid structure becomes highly reduced. Forty minutes of light plus a one h dark period, or addition of glutamate or malate for 7 h does not change the proplastid structure significantly even though PT-Pchl(ide) returns to the level found in growing cells. Upon prolonged incubation in darkness after light treatment (72 h) an expanded proplastid containing prothylakoids, prolamellar bodies and membrane whorls with mitochondria in close association is seen; most of the cellular paramylum is lost during this period leaving cavities in the cytoplasm. Without light, prolonged incubation in darkness (72 h) with malate leads to accumulation of cellular paramylum but no change in proplastid structure while prolonged treatment with glutamate (72 h) allows the formation of a few prothylakoids but no prolamellar bodies.
- 日本植物生理学会の論文
著者
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Schiff Jerome
Institute For Photobiology Of Cells And Organelles Brandeis University
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Osafune Tetsuaki
Institute for Photobiology of Cells and Organelles, Brandeis University
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Alhadeff Myriam
Institute for Photobiology of Cells and Organelles, Brandeis University
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Osafune Tetsuaki
Institute For Photobiology Of Cells And Organelles Brandeis University:(permanent)department Of Micr
関連論文
- Events surrounding the early development of Euglena chloroplasts 13. Photocontrol of protein synthesis
- Regulation of Protochlorophyll (ide) Levels in Dark-Grown Non-Dividing Euglena 3. : Proplastid Structure during Loss and Regeneration of Protochlorophyll (ide)
- Studies of sulfate utilization by algae 17. Reactions of the adenosine 5'-phosphosulfate (APS) sulfotransferase from Chlorella and studies of model reactions which explain the diversity of side products with thiols
- Chlorophyll-Protein Complexes and other Thylakoid Components at the Low Intensity Threshold in Euglena Chloroplast Development