普通脱硫弧菌的细胞色素c3对铀的还原作用。
Reduction of uranium by cytochrome c3 of Desulfovibrio vulgaris.
作者信息
Lovley D R, Widman P K, Woodward J C, Phillips E J
机构信息
Water Resources Division, U.S. Geological Survey, Reston, Virginia 22092.
出版信息
Appl Environ Microbiol. 1993 Nov;59(11):3572-6. doi: 10.1128/aem.59.11.3572-3576.1993.
The mechanism for U(VI) reduction by Desulfovibrio vulgaris (Hildenborough) was investigated. The H2-dependent U(VI) reductase activity in the soluble fraction of the cells was lost when the soluble fraction was passed over a cationic exchange column which extracted cytochrome c3. Addition of cytochrome c3 back to the soluble fraction that had been passed over the cationic exchange column restored the U(VI)-reducing capacity. Reduced cytochrome c3 was oxidized by U(VI), as was a c-type cytochrome(s) in whole-cell suspensions. When cytochrome c3 was combined with hydrogenase, its physiological electron donor, U(VI) was reduced in the presence of H2. Hydrogenase alone could not reduce U(VI). Rapid U(VI) reduction was followed by a subsequent slow precipitation of the U(IV) mineral uraninite. Cytochrome c3 reduced U(VI) in a uranium-contaminated surface water and groundwater. Cytochrome c3 provides the first enzyme model for the reduction and biomineralization of uranium in sedimentary environments. Furthermore, the finding that cytochrome c3 can catalyze the reductive precipitation of uranium may aid in the development of fixed-enzyme reactors and/or organisms with enhanced U(VI)-reducing capacity for the bioremediation of uranium-contaminated waters and waste streams.
研究了普通脱硫弧菌(希登伯勒菌株)还原U(VI)的机制。当细胞可溶部分通过提取细胞色素c3的阳离子交换柱时,该可溶部分中依赖H2的U(VI)还原酶活性丧失。将细胞色素c3重新添加到已通过阳离子交换柱的可溶部分中,可恢复其还原U(VI)的能力。还原型细胞色素c3可被U(VI)氧化,全细胞悬浮液中的一种c型细胞色素也可被U(VI)氧化。当细胞色素c3与它的生理电子供体氢化酶结合时,在有H2存在的情况下U(VI)会被还原。单独的氢化酶不能还原U(VI)。U(VI)快速还原之后会接着缓慢沉淀出U(IV)矿物沥青铀矿。细胞色素c3可在受铀污染的地表水和地下水中还原U(VI)。细胞色素c3为沉积环境中铀的还原和生物矿化提供了首个酶模型。此外,细胞色素c3能催化铀的还原沉淀这一发现可能有助于开发固定酶反应器和/或具有增强U(VI)还原能力的生物体,用于铀污染水体和废水流的生物修复。
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