质子泵细胞色素c氧化酶二聚体结构的证据:辐射失活分析
Evidence for dimer structure of proton-pumping cytochrome c oxidase, an analysis by radiation inactivation.
作者信息
Sone N, Kosako T
出版信息
EMBO J. 1986 Jul;5(7):1515-9. doi: 10.1002/j.1460-2075.1986.tb04391.x.
Abstract
Cytochrome c oxidases, purified from bovine heart and the thermophilic bacterium PS3, were irradiated with a high-energy electron beam. The proton transport activities of both preparations and their electron transfer activities decreased as single exponential functions of the radiation dosage. Applying the target theory with alkaline phosphatase as an internal standard, the following functional molecular weights were obtained for cytochrome c oxidation and H+ pumping: 63-73 kd and 160-220 kd, respectively, for the bovine enzyme, and 80-100 kd and 190-230 kd for the PS3 enzyme. The results suggest that a dimer structure is necessary for H+ pumping, while a core part of monomer (presumably the largest two subunits, i.e. subunits I and II) is sufficient for cytochrome c oxidation.
摘要
从牛心和嗜热细菌PS3中纯化得到的细胞色素c氧化酶,用高能电子束进行辐照。两种制剂的质子转运活性及其电子传递活性均随着辐射剂量的单指数函数而降低。以碱性磷酸酶作为内标应用靶理论,对于细胞色素c氧化和H⁺泵浦,分别得到牛酶的功能分子量为63 - 73kd和160 - 220kd,PS3酶的功能分子量为80 - 100kd和190 - 230kd。结果表明,二聚体结构对于H⁺泵浦是必需的,而单体的核心部分(大概是最大的两个亚基,即亚基I和II)对于细胞色素c氧化就足够了。
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