Schmitt M E, Trumpower B L
Department of Biochemistry, Dartmouth Medical School, Hanover, New Hampshire 03756.
J Biol Chem. 1990 Oct 5;265(28):17005-11.
We have characterized the activities of the cytochrome bc1 complex in mitochondrial membranes from a yeast strain in which we deleted the nuclear gene (QCR6, COR3) which codes for the highly acidic subunit 6 of the bc1 complex. The chromosomal copy of QCR6 was replaced with a plasmid derived copy of QCR6, in which the entire coding region of QCR6 was replaced with the yeast LEU2 gene. The resulting deletion strain, MES8, contained no detectable mRNA for QCR6, and the cytochrome bc1 complex purified from the deletion strain lacked subunit 6. The deletion strain respired and grew on nonfermentable carbon sources such as ethanol and glycerol. Ubiquinol-cytochrome c reductase activity of mitochondria from the deletion strain was decreased 50% under conditions where the activity is zero order with respect to cytochrome c, and there was a similar decrease in the first-order rate constant for cytochrome c reduction. The loss of bc1 complex activities, observed at physiological ionic strengths, was reversible. Both the zero order rate and the first-order rate constant for cytochrome c reduction could be recovered to those of the parental strain by measuring these activities in mitochondrial membranes under conditions of low ionic strength. The zero order rate and first-order rate constant for cytochrome c reduction in membranes from the parent, wild-type yeast showed essentially no change coincident with this change in ionic strength. The 50% drop in both turnover number and first-order rate constant of ubiquinol-cytochrome c reductase activity indicates that half of the cytochrome bc1 complexes are inactive in the deletion strain at physiological ionic strengths. Inhibition by myxothiazol of cytochrome c reductase activity of mitochondrial membranes from the deletion strain showed an ionic strength-dependent lag in the titration curve that extended to the point where half of the inhibitor sites are filled. This lag was not observed with membranes from the wild-type, parent strain. This response to the inhibitor is consistent with half of the cytochrome bc1 complexes being inactive in mitochondria from the deletion strain at physiological ionic strength, but with both active and inactive complexes still able to bind inhibitor. The reversible, half-of-the-sites reactivity indicates that the bc1 complex must be dimeric in situ, in agreement with previous findings that the complexes isolated from fungal (Leonard, K., Wingfield, P., Arad, T., and Weiss, H. (1981) J. Mol. Biol. 149, 259-274) and mammalian (Nalecz, M. J., Bolli, R., and Azzi, A. (1985) Arch. Biochem. Biophys. 236, 619-628) mitochondria are structural dimers.(ABSTRACT TRUNCATED AT 400 WORDS)
我们已经对来自一个酵母菌株的线粒体膜中细胞色素bc1复合物的活性进行了表征。在该酵母菌株中,我们删除了编码bc1复合物高酸性亚基6的核基因(QCR6,COR3)。QCR6的染色体拷贝被源自质粒的QCR6拷贝所取代,其中QCR6的整个编码区域被酵母LEU2基因所取代。所得的缺失菌株MES8中未检测到QCR6的mRNA,并且从该缺失菌株中纯化的细胞色素bc1复合物缺乏亚基6。该缺失菌株能够在乙醇和甘油等非发酵性碳源上进行呼吸和生长。在细胞色素c浓度对酶活性呈零级反应的条件下,缺失菌株线粒体的泛醌 - 细胞色素c还原酶活性降低了50%,并且细胞色素c还原的一级速率常数也有类似程度的降低。在生理离子强度下观察到的bc1复合物活性丧失是可逆的。通过在低离子强度条件下测量线粒体膜中的这些活性,细胞色素c还原的零级速率和一级速率常数都可以恢复到亲本菌株的水平。亲本野生型酵母膜中细胞色素c还原的零级速率和一级速率常数在离子强度发生这种变化时基本没有变化。泛醌 - 细胞色素c还原酶活性的周转数和一级速率常数均下降50%,这表明在生理离子强度下,缺失菌株中一半的细胞色素bc1复合物是无活性的。粘噻唑对缺失菌株线粒体膜细胞色素c还原酶活性的抑制作用在滴定曲线中显示出离子强度依赖性滞后,这种滞后一直延伸到一半的抑制剂位点被占据的点。野生型亲本菌株的膜未观察到这种滞后现象。这种对抑制剂的反应与在生理离子强度下缺失菌株线粒体中一半的细胞色素bc1复合物无活性一致,但活性和无活性复合物仍能结合抑制剂。这种可逆的半位点反应性表明bc1复合物在原位必须是二聚体,这与之前从真菌(伦纳德,K.,温菲尔德,P.,阿拉德,T.,和魏斯,H.(1981)《分子生物学杂志》149,259 - 274)和哺乳动物(纳莱茨,M. J.,博利,R.,和阿齐,A.(1985)《生物化学与生物物理学报》236,619 - 628)线粒体中分离出的复合物是结构二聚体的发现一致。(摘要截于400字)
