活酵母中的乙醇脱氢酶活性与电子传递
Alcohol dehydrogenase activity and electron transport in living yeast.
作者信息
Ryan H
出版信息
Biochem J. 1967 Oct;105(1):137-43. doi: 10.1042/bj1050137.
Abstract
- The excretion of H(+) ions, with practically equivalent uptake of K(+) ions (from 0.1m-potassium chloride), occurs during the aerobic oxidation of ethanol. 2. Acetaldehyde and acetic acid formed at the same time are quantitatively equal to the amount of ethanol oxidized. 3. A slow uptake of K(+) ions occurs during the oxidation of acetaldehyde and a more rapid uptake during the oxidation of d-glyceraldehyde 3-phosphate. 4. The anaerobic reduction of methylene blue is studied, and the inhibitory effect of K(+) and other inorganic cations on the system demonstrated. 5. The cation requirement for equal inhibitory effect is parallel with the reciprocals of the transport affinities for the ;physiological K-carrier' (as taken from Conway & Duggan, 1958). 6. The cation inhibition of methylene blue reduction is reversed by treatment of the yeast with Teepol or by freezing-and-thawing. 7. Azide is shown to inhibit the reduction of methylene blue with intact cells. The inhibition is partially reversed by Teepol treatment and completely by freezing-and-thawing.
摘要
- 在乙醇的有氧氧化过程中,会排出H(+)离子,同时几乎等量摄取K(+)离子(来自0.1m氯化钾)。2. 同时形成的乙醛和乙酸在数量上与被氧化的乙醇量相等。3. 在乙醛氧化过程中K(+)离子摄取缓慢,而在3-磷酸甘油醛氧化过程中摄取较快。4. 研究了亚甲蓝的厌氧还原,并证明了K(+)和其他无机阳离子对该系统的抑制作用。5. 产生同等抑制作用所需的阳离子与“生理性K载体”的转运亲和力的倒数呈平行关系(取自康威和达根,1958年)。6. 用特波尔处理酵母或进行冻融处理可逆转阳离子对亚甲蓝还原的抑制作用。7. 已表明叠氮化物会抑制完整细胞对亚甲蓝的还原。特波尔处理可部分逆转这种抑制作用,冻融处理则可完全逆转。
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4
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