Remennikov V G, Samuilov V D
Biokhimiia. 1980 Jul;45(7):1298-304.
The uptake of permeant anions by cells and chromatophores of the non-sulfur purple bacteria R. rubrum has been studied. Antimycin A causes biphasic inhibition of the light-induced uptake of tetraphenylborate anions (TB-) by the cells and the isolated chromatophores incubated under anaerobic conditions. The first phase is observed at small concentrations of antimycin and is due to its effect as an inhibitor of the cyclic electron transfer. The second phase is observed at concentrations higher than 1 microM and is due to its effect as an uncoupler of photophosphorylation. The inhibitory effect of antimycin is greatly enhanced under aerobic conditions and is due to its effect as an uncoupler of photophosphorylation. The innic cyclic redox chain in the isolated and intracellular chromatophores is apparently operated in two regimens: 1) as a chain including all redox components and, 2) as a chain functioning without cytochromes of the b type.
对非硫紫色细菌红假单胞菌(R. rubrum)的细胞和载色体对渗透性阴离子的摄取进行了研究。抗霉素A对在厌氧条件下培养的细胞和分离的载色体光诱导的四苯基硼酸根阴离子(TB-)摄取具有双相抑制作用。第一阶段在低浓度抗霉素时观察到,这是由于其作为循环电子传递抑制剂的作用。第二阶段在浓度高于1微摩尔时观察到,这是由于其作为光合磷酸化解偶联剂的作用。在有氧条件下,抗霉素的抑制作用大大增强,这是由于其作为光合磷酸化解偶联剂的作用。分离的和细胞内载色体中的内环式氧化还原链显然以两种方式运行:1)作为包含所有氧化还原成分的链,以及2)作为没有b型细胞色素的链起作用。