Difference in nitrate reduction in "light" and "dark" stages of synchronously grown Chlorella pyrenoidosa and resultant metabolic changes
スポンサーリンク
概要
- 論文の詳細を見る
Using synchronized cells of Chlorella pyrenoidosa, the incorporation patterns of ^<14>C into various metabolites with and without nitrogen sources were studied under steady-state and non steady-state conditions. From the patterns it was found that the smallest cells which are divided in the dark utilize nitrate and nitrite very little, if at all. The importance of ammonia for regulation of secondary flow for Chlorella is discussed and the suggested regulatory points are described.
- 日本植物生理学会の論文
著者
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Bassham J.a.
Chemical Biodynamics Laboratory Lawrence Radiation Laboratory University Of California
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KANAZAWA T.
Chemical Biodynamics Laboratory, Lawrence Radiation Laboratory, University of California
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KANAZAWA K.
Chemical Biodynamics Laboratory, Lawrence Radiation Laboratory, University of California
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KIRK M.R.
Chemical Biodynamics Laboratory, Lawrence Radiation Laboratory, University of California
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Kirk M.r.
Chemical Biodynamics Laboratory Lawrence Radiation Laboratory University Of California
関連論文
- Regulation of photosynthetic carbon metabolism in synchronously growing Chlorella pyrenoidosa
- Difference in nitrate reduction in "light" and "dark" stages of synchronously grown Chlorella pyrenoidosa and resultant metabolic changes