来自维诺格拉德斯基硝化杆菌的磷酸化电子传递颗粒中的节能反应。质子动力的电成分对亚硝酸盐氧化的激活作用。

Energy-conserving reactions in phosphorylating electron-transport particles from Nitrobacter winogradskyi. Activation of nitrite oxidation by the electrical component of the protonmotive force.

作者信息

Cobley J G

出版信息

Biochem J. 1976 Jun 15;156(3):481-91. doi: 10.1042/bj1560481c.

DOI:10.1042/bj1560481c

PMID:182152

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1163779/

Abstract

In electron-transport particles (ET particles) prepared from Nitrobacter winogradskyi, the uncoupling agent carbonyl cyanide phenylhydrazone increased the rate of NADH oxidation but decreased the rate of oxidation of NO2-. Its effectiveness in stimulating NADH oxidation closely paralleled its effectiveness in inhibiting NO2- oxidation. 2. In the presence of ADP and phosphate the oxidation of NADH was stimulated, whereas the oxidation of NO2- was inhibited. In the presence of excess of Pi the concentration dependence with respect to ADP was the same for acceleration of NADH oxidation and inhibition of NO2- oxidation. 3. Oligomycin inhibited NADH oxidation and stimulated the oxidation of NO2-. The concentration of oligomycin required to produce half-maximal effect in both systems was the same. 4. The apparent Km for NO2- was not affected by ADP together with Pi, by uncoupling agent or by oligomycin. 5. With NADH as substrate, classical respiratory control was observed. With NO2- as substrate the respiratory-control ratio was less than unity. 6. A reversible uptake of H+ accompanied the oxidation of NO2- by ET particles. 7. In the presence of NH4Cl or cyclohexylamine hydrochloride, H+ uptake was abolished and increased rates of NO2- oxidation were observed. When valinomycin was present in the reaction medium, low concentrations of NH4Cl inhibited NO2- oxidation. 8. Pretreatment of ET particles with oligomycin enhanced the stimulation of NO2- oxidation induced by NH4Cl or by cyclohexylamine hydrochloride. Pretreatment with the uncoupler carbonyl cyanide phenylhydrazone prevented these stimulations. 9. In the presence of dianemycin together with K+, the uptake of H+ was abolished and the rate of NO2- oxidation was increased. In contrast, in the presence of valinomycin together with K+, the uptake of H+ was increased, and the rate of NO2- oxidation decreased. 10. Sodium tetraphenylboron was found to be an inhibitor of NO2- oxidation, but caused a stimulation of NADH oxidation which was dependent on the presence of NH4Cl or cyclohexylamine hydrochloride. 11. It is concluded that the enhanced rate of NO2- oxidation observed in the absence of energy-dissipating processes clearly relates to some state before the involvement of adenine nucleotides, and it is suggested that the oxidation of NO2- generates a protonmotive force, the electrical component of which controls the rate of NO2- oxidation.

摘要

在从维诺格拉德斯基硝化杆菌制备的电子传递颗粒（ET颗粒）中，解偶联剂羰基氰苯腙提高了NADH的氧化速率，但降低了NO2-的氧化速率。其刺激NADH氧化的效果与其抑制NO2-氧化的效果密切平行。2. 在ADP和磷酸盐存在下，NADH的氧化受到刺激，而NO2-的氧化受到抑制。在Pi过量存在时，对于NADH氧化加速和NO2-氧化抑制，相对于ADP的浓度依赖性是相同的。3. 寡霉素抑制NADH氧化并刺激NO2-的氧化。在两个系统中产生半数最大效应所需的寡霉素浓度相同。4. NO2-的表观Km不受ADP与Pi、解偶联剂或寡霉素的影响。5. 以NADH为底物时，观察到经典的呼吸控制。以NO2-为底物时，呼吸控制率小于1。6. ET颗粒氧化NO2-时伴有H+的可逆摄取。7. 在存在NH₄Cl或环己胺盐酸盐的情况下，H+摄取被消除，并且观察到NO2-氧化速率增加。当反应介质中存在缬氨霉素时，低浓度的NH₄Cl抑制NO2-氧化。8. 用寡霉素预处理ET颗粒增强了由NH₄Cl或环己胺盐酸盐诱导的NO2-氧化刺激。用解偶联剂羰基氰苯腙预处理可防止这些刺激。9. 在存在离子霉素和K+的情况下，H+摄取被消除，NO2-氧化速率增加。相反，在存在缬氨霉素和K+的情况下，H+摄取增加，NO2-氧化速率降低。10. 发现四苯基硼酸钠是NO2-氧化的抑制剂，但在存在NH₄Cl或环己胺盐酸盐的情况下会刺激NADH氧化。11. 得出结论，在不存在能量耗散过程的情况下观察到的NO2-氧化速率增强显然与腺嘌呤核苷酸参与之前的某种状态有关，并且表明NO2-的氧化产生质子动力，其电成分控制NO2-氧化速率。