The role of a glyoxylate-glycolate system in chloroplasts of higher plants
スポンサーリンク
概要
- 論文の詳細を見る
Photoreduction of glyoxylate and oxidation of glycolate were investigated using unwashed chloroplasts from spinach leaves. A glyoxylate ⇌ glycolate system operated in light and under aerobic conditions. Accompanying the photoreduction of glyoxylate and the oxidation of glycolate, was the disappearance of inorganic phosphate. Photoreduction of oxalate was also observed in illuminated chloroplasts. The reaction rate was, however, much lower than that for the photoreduction of glyoxylate.
- 日本植物生理学会の論文
著者
-
TSUKAMOTO Akira
Department of Physics,Osaka University
-
Tsukamoto Akira
Department Of Biology Faculty Of Science Ochanomizu University
-
OMATA SETSUKO
Department of Biology, Faculty of Science, Ochanomizu University
-
Omata Setsuko
Department Of Biology Faculty Of Science Ochanomizu University
-
Tsukamoto Akira
Department of Biology, Faculty of Science, Ochanomizu University
-
TSUKAMOTO Akira
Department of Applied Physics, National Defense Academy
関連論文
- New Limits on Neutral Scalar Bosons
- Measurement of the Reactions e^+e^-→e^+e^- and e^+e^-→γγ at √=52 GeV
- Search for the Top Quark in e^+e^- Annihilation at √=50 GeV:The First Result from the VENUS Detector at TRISTAN
- Oxidation of Reduced Pyridine Nucleotides by Molecular Oxygen in Spinach Chloroplasts
- Generation and Observation of Strong Shock Waves in the Flight Regiemes of AOTV
- The role of a glyoxylate-glycolate system in chloroplasts of higher plants
- Reductive carboxylation and amination of keto acids by spinach chloroplasts
- Search for the Top Quark in $e^{+}e^{-}$ Annihilation at $\sqrt{s}{=}50$ GeV: The First Result from the VENUS Detector at TRISTAN
- A Miniaturized Shock-Wave Device for Mounting on Forceps