不同光照强度下分离的豌豆叶绿体中质子摄取的化学计量学。

Stoichiometry of proton uptake in isolated pea chloroplasts under different light intensities.

作者信息

Ivanov B N, Shmeleva V L, Ovchinnikova V I

出版信息

J Bioenerg Biomembr. 1985 Aug;17(4):239-49. doi: 10.1007/BF00744206.

Abstract

The number of protons released inside the chloroplast thylakoids per electron which is transferred through the electron transport chain (H+/e- ratio) was measured in isolated pea chloroplasts at pH 6.0 under continuous illumination and with methyl viologen as an electron acceptor. At saturating light intensity (200 W X m-2) ("strong" light) the H+/e- ratio was 3. At low intensity (0.9 W X m-2) ("weak" light) the H+/e- ratio was 2 with dark-adapted chloroplasts, but it was close to 3 with chloroplasts that were preilluminated with strong light. It is shown that the presence of azide in the reaction mixture leads to errors in the determination of the H+/e- ratio due to underestimation of the initial rate of H+ efflux on switching off the light. To explain the above data, we assume that transformation of the electron transport chain occurs during illumination with strong light, namely, the Q cycle becomes operative.

摘要

在pH 6.0的条件下，以甲基紫精作为电子受体，在连续光照下，对分离出的豌豆叶绿体中，每通过电子传递链转移一个电子时在叶绿体类囊体内部释放的质子数（H⁺/e⁻ 比率）进行了测定。在饱和光强（200 W·m⁻²）（“强光”）下，H⁺/e⁻ 比率为3。在低光强（0.9 W·m⁻²）（“弱光”）下，暗适应的叶绿体的H⁺/e⁻ 比率为2，但强光预照的叶绿体的H⁺/e⁻ 比率接近3。结果表明，反应混合物中叠氮化物的存在会导致H⁺/e⁻ 比率测定出现误差，这是由于关灯时H⁺ 外流的初始速率被低估。为了解释上述数据，我们假设在强光照射期间电子传递链发生了转变，即Q循环开始起作用。

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Factors regulating the slow electrogenic phase in green algae and higher plants.调节绿藻和高等植物中缓慢生电阶段的因素。

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不同光照强度下分离的豌豆叶绿体中质子摄取的化学计量学。

Stoichiometry of proton uptake in isolated pea chloroplasts under different light intensities.

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