叶绿体对二氧化碳以及对吲哚酚和铁氰化物的还原作用
Carbon dioxide and the reduction of indophenol and ferricyanide by chloroplasts.
作者信息
West J, Hill R
机构信息
Department of Biochemistry, University of Cambridge, Cambridge, England.
出版信息
Plant Physiol. 1967 Jun;42(6):819-26. doi: 10.1104/pp.42.6.819.
Pea chloroplasts isolated in salt media show decreased rates of 2:6 dichlorophenolindophenol (DCPIP) and ferricyanide reduction when depleted of CO(2) at pH values below 7.5. The greatest effect of CO(2) was on uncoupled systems. The incorporation of 10(-2), 2 x 10(-2) and 4 x 10(-2)m sodium acetate into the reaction mixtures progressively increased the bicarbonate concentration required for half maximal rates of reduction of DCPIP. The reaction was saturated by bicarbonate concentrations of 1 to 4 x 10(-2)m. With both DCPIP and ferricyanide, the addition of bicarbonate to illuminated chloroplast systems depleted of CO(2) gave very rapid increases in the rates of reduction. Bicarbonate also stimulated oxygen uptake by the illuminated chloroplasts when added hydrogen acceptors had been reduced. There was no effect of bicarbonate on ferricyanide reduction at low light intensities, but with DCPIP reduction, the apparent magnitude of the effect was independent of light intensity. This suggests that DCPIP reacts with the chloroplast electron transport chain at a site nearer to a photochemical stage than does ferricyanide. It also suggests that CO(2) has at least 2 sites of action.
在盐介质中分离得到的豌豆叶绿体,当在pH值低于7.5的条件下耗尽二氧化碳时,2,6 - 二氯酚靛酚(DCPIP)和铁氰化物的还原速率降低。二氧化碳对解偶联系统的影响最大。向反应混合物中加入10⁻²、2×10⁻²和4×10⁻²m的醋酸钠,会逐渐增加使DCPIP还原速率达到半最大值所需的碳酸氢盐浓度。该反应在1至4×10⁻²m的碳酸氢盐浓度下达到饱和。对于DCPIP和铁氰化物,向耗尽二氧化碳的光照叶绿体系统中添加碳酸氢盐会使还原速率迅速增加。当添加的氢受体被还原时,碳酸氢盐也会刺激光照叶绿体对氧气的吸收。在低光照强度下,碳酸氢盐对铁氰化物的还原没有影响,但对于DCPIP的还原,其表观效应大小与光照强度无关。这表明DCPIP与叶绿体电子传递链的反应位点比铁氰化物更接近光化学阶段。这也表明二氧化碳至少有2个作用位点。
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