The Cl− effect on photosynthetic oxygen evolution: interaction of Cl− with 18‐kDa, 24‐kDa and 33‐kDa proteins

Miyao Mitsue; Murata Norio

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The Cl− effect on photosynthetic oxygen evolution: interaction of Cl− with 18‐kDa, 24‐kDa and 33‐kDa proteins

机译：Cl−对光合氧气释放的影响：Cl−与18-kDa，24-kDa和33-kDa蛋白的相互作用

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>The interaction of Cl− with the extrinsic proteins of 18 kDa, 24 kDa and 33 kDa in the photosynthetic oxygen-evolution complex was studied by comparing spinach photosystem II particles of different protein compositions. The 33-kDa protein decreased the Cl− concentration optimum for oxygen evolution from 150 to 30 mM, and the 24-kDa protein decreased it from 30 to 10 mM. The 18-kDa protein did not change the optimum Cl− concentration, but sustained oxygen evolution at Cl− concentrations lower than 3 mM. The presence of the 24-kDa and 18-kDa proteins, but not each protein alone, markedly suppressed inactivation of oxygen evolution at a very low Cl− concentration and its restoration by readdition of Cl−.

机译：>通过比较不同蛋白质组成的菠菜光系统II颗粒，研究了Cl -与光合氧进化复合物中18 kDa，24 kDa和33 kDa外在蛋白的相互作用。 33 kDa蛋白将最适合氧气释放的Cl -浓度从150 mM降低到24 mk蛋白，从30 mM降低到10 mM。 18 kDa的蛋白质不会改变最佳的Cl -浓度，但是在低于3 mM的Cl -浓度下会持续释放氧气。 24-kDa和18-kDa蛋白的存在（但不是每种蛋白单独存在）在极低的Cl -浓度下显着抑制了氧气释放的失活，并且通过Cl -的重新定位恢复了氧的失活。。

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《FEBS Letters》 |1985年第2期|共页
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Miyao Mitsue; Murata Norio;
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中图分类分子生物学;
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The Cl− effect on photosynthetic oxygen evolution: interaction of Cl− with 18‐kDa, 24‐kDa and 33‐kDa proteins

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