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球形红假单胞菌载色体中短闪光激发诱导的电位变化、H⁺ 转运和磷酸化作用

Electrical potential changes, H+ translocation and phosphorylation induced by short flash excitation in Rhodopseudomonas sphaeroides chromatophores.

作者信息

Saphon S, Jackson J B, Witt H T

出版信息

Biochim Biophys Acta. 1975 Oct 10;408(1):67-82. doi: 10.1016/0005-2728(75)90159-0.

DOI:10.1016/0005-2728(75)90159-0
PMID:240444
Abstract
  1. The basal decay of the carotenoid shift of chromatophores from photosynthetic bacteria following short flash excitation is approximately biphasic. The decay indicates the dissipation of the transmembrane electrical potential. 2. The H+ efflux following rapid H+ binding after a flash, measured from the colour change of added cresol red, shows very similar kinetics to the carotenoid shift decay suggesting that the dissipation of the electric potential decay is a consequence of the H+ efflux. 3. The electric potential decay is stimulated when the chromatophore suspension is supplemented with ADP and Pi (in either the presence or absence of antimycin A). 4. The stimulated electric potential decay by ADP and Pi has a similar pH dependence to that of phosphorylation in continuous light. 5. The stimulation of the electric potential decay by ADP and Pi is reversed, by aurovertin, an antibiotic which inhibits phosphorylation. 6. The stimulation of the electric potential decay by ADP+Pi is also reversed by the inhibitors oligomycin and venturicidin. These inhibitors, but not aurovertin, also inhibit the fast phase of the decay under non-phosphorylating conditions. 7. Valinomycin accelerates the overall rate of decay of the electric potential, inhibits the ADP and Pi stimulated electric potential decay, and inhibits the flash-induced phosphorylation. The decay rate of the H+ efflux however, is slower in the presence of this ionophore. 8. Nigericin-type ionophores accelerate the overall decay rate of the H+ efflux and inhibit the ADP and Pi stimulated electric potential decay. The basal rate of the electric potential decay is unaffected by treatment with these ionophores. 9. When a coupling factor associated with the chromatophore ATPase is removed from the membrane, both the stimulation of the electric potential decay by ADP and Pi and ADP phosphorylation are inhibtied. Both reactions are completely restored after reconstitution with the crude coupling factor extract. The basal electric potential decay rate is not affected by the removal of coupling factor.
摘要
  1. 光合细菌的载色体在短闪光激发后,类胡萝卜素转变的基础衰减大致呈双相。这种衰减表明跨膜电势的耗散。2. 闪光后快速结合H⁺ 后,通过添加甲酚红的颜色变化测量的H⁺ 外流显示出与类胡萝卜素转变衰减非常相似的动力学,这表明电势衰减的耗散是H⁺ 外流的结果。3. 当向载色体悬浮液中添加ADP和Pi(无论是否存在抗霉素A)时,电势衰减会受到刺激。4. ADP和Pi刺激的电势衰减具有与连续光照下磷酸化相似的pH依赖性。5. 电势衰减的刺激被金褐霉素逆转,金褐霉素是一种抑制磷酸化的抗生素。6. ADP + Pi对电势衰减的刺激也被抑制剂寡霉素和venturicidin逆转。这些抑制剂,但不是金褐霉素,在非磷酸化条件下也抑制衰减的快速阶段。7. 缬氨霉素加速电势衰减的总体速率,抑制ADP和Pi刺激的电势衰减,并抑制闪光诱导的磷酸化。然而,在这种离子载体存在下,H⁺ 外流的衰减速率较慢。8. 尼日利亚菌素型离子载体加速H⁺ 外流的总体衰减速率,并抑制ADP和Pi刺激的电势衰减。电势衰减的基础速率不受这些离子载体处理的影响。9. 当与载色体ATP酶相关的偶联因子从膜上去除时,ADP和Pi对电势衰减的刺激以及ADP磷酸化均受到抑制。用粗偶联因子提取物重构后,两种反应都完全恢复。基础电势衰减速率不受偶联因子去除的影响。

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