从卡氏棘阿米巴对氰化物敏感和受氰化物刺激的培养物中分离出的线粒体的特性。
Properties of mitochondria isolated from cyanide-sensitive and cyanide-stimulated cultures of Acanthamoeba castellanii.
作者信息
Edwards S W, Lloyd D
出版信息
Biochem J. 1978 Jul 15;174(1):203-11. doi: 10.1042/bj1740203.
Abstract
- Mitochondria isolated from cultures of Acanthamoeba castellanii exhibit respiratory control and oxidize alpha-oxoglutarate, succinate and NADH with ADP:O ratios of about 2.4, 1.4 and 1.25 respectively. 2. Mitochondria from cultures of which the respiration was stimulated up to 50% by 1mm-cyanide (type-A mitochondria) and from cyanide-sensitive cultures (type-B mitochondria) had similar respiratory-control ratios and ADP:O ratios. 3. State-3 rates of respiration were generally more cyanide-sensitive than State-4 rates, and the respiration of type-A mitochondria was more cyanide-resistant than that of type-B mitochondria. 4. Salicylhydroxamic acid alone had little effect on respiratory activities of either type of mitochondria, but when added together with cyanide, irrespective of the order of addition, inhibition was almost complete. 5. Oxidation of externally added NADH by type-A mitochondria was mainly via an oxidase with a low affinity for oxygen (K(m)[unk]15mum), which was largely cyanide-sensitive and partially antimycin A-sensitive; this electron-transport pathway was inhibited by ADP. 6. Cyanide-insensitive but salicylhydroxamic acid-sensitive respiration was stimulated by AMP and ADP, and by ATP after incubation in the presence of MgCl(2). 7. Addition of rotenone to mitochondria oxidizing alpha-oxoglutarate lowered the ADP:O ratios by about one-third and rendered inhibition by cyanide more complete. 8. The results suggest that mitochondria of A. castellanii possess branched pathways of electron transport which terminate in three separate oxidases; the proportions of electron fluxes via these pathways vary at different stages of growth.
摘要
- 从卡氏棘阿米巴培养物中分离出的线粒体表现出呼吸控制,并且分别以约2.4、1.4和1.25的ADP:O比率氧化α-酮戊二酸、琥珀酸和NADH。2. 用1mM氰化物刺激呼吸达50%的培养物中的线粒体(A型线粒体)和对氰化物敏感的培养物中的线粒体(B型线粒体)具有相似的呼吸控制比率和ADP:O比率。3. 状态3呼吸速率通常比状态4呼吸速率对氰化物更敏感,并且A型线粒体的呼吸比B型线粒体的呼吸对氰化物更具抗性。4. 单独的水杨羟肟酸对两种类型线粒体的呼吸活性影响很小,但与氰化物一起添加时,无论添加顺序如何,抑制几乎是完全的。5. A型线粒体对外部添加的NADH的氧化主要通过对氧亲和力低的氧化酶(K(m)[unk]15μm)进行,该氧化酶对氰化物高度敏感且对抗霉素A部分敏感;该电子传递途径受ADP抑制。6. 对氰化物不敏感但对水杨羟肟酸敏感的呼吸受到AMP和ADP以及在MgCl(2)存在下孵育后的ATP的刺激。7. 向氧化α-酮戊二酸的线粒体中添加鱼藤酮使ADP:O比率降低约三分之一,并使氰化物的抑制作用更完全。8. 结果表明,卡氏棘阿米巴的线粒体具有分支的电子传递途径,这些途径终止于三种不同的氧化酶;通过这些途径的电子通量比例在生长的不同阶段有所变化。
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