Chloroplast reactions with dipyridyl salts

Biochimica et Biophysica Acta (BBA) - Biophysics including Photosynthesis Pub Date : 1966-07-13 DOI:10.1016/0926-6585(66)90300-1

Clanton C. Black Jr.

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引用次数: 73

Abstract

Illuminated spinach chloroplasts reduce quarternary dipyridyl salts with oxidation-reduction potentials ranging from −342 to −656 mV. The accumulation of reduced dipyridyl was dependent upon the oxidation-reduction potential of each dipyridyl, ranging from 100% with the 1,1′-ethylene-2,2′-dipyridylium dibromide (E₀′ = −342 mV) to 3% with the 1,1′-trimethylene-2,2′-dipyridylium-4,4′-methyl dibromide (E₀′ = −656 mV). The data suggest that the oxidation-reduction potential of a natural photosynthetic reductant(s) may be near −521 mV. Photosynthetic phosphorylation occurs concurrent with reduction under both argon and air. In the presence of oxygen the reduced dipyridyls are oxidized and H₂O₂ is produced. The dipyridyls could be substituted for spinach ferredoxin in a dark reduction of cytochrome c in the presence of NADPH and NADP⁺ reductase (EC 1.6.99.4). The polagraphic half-wave oxidation-reduction potential of the dipyridyls is reported.

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叶绿体与二吡啶盐的反应

光照下的菠菜叶绿体还原季二吡啶盐的氧化还原电位范围为- 342至- 656 mV。还原的二吡啶的积累取决于每个二吡啶的氧化还原电位，从1,1 ' -乙烯-2,2 ' -二吡啶的100% (E0 ' = - 342 mV)到1,1 ' -三亚甲基-2,2 ' -二吡啶-4,4 ' -甲基二溴的3% (E0 ' = - 656 mV)。数据表明，天然光合还原剂的氧化还原电位可能接近- 521 mV。在氩气和空气条件下，光合磷酸化与还原同时发生。在氧气的存在下，还原的二吡啶被氧化，产生H2O2。在NADPH和NADP+还原酶(EC 1.6.99.4)存在的情况下，双吡啶可以取代菠菜铁氧化还蛋白，使细胞色素c发生暗还原。报道了双吡啶类化合物的极谱半波氧化还原电位。

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Biochimica et Biophysica Acta (BBA) - Biophysics including Photosynthesis

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