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8-硝基ATP共价结合于牛心亚线粒体颗粒对能量转换反应的抑制作用:ATP酶与氧化还原酶之间的直接相互作用。

Inhibition of energy-transducing reactions by 8-nitreno-ATP covalently bound to bovine heart submitochondrial particles: direct interaction between ATPase and redox enzymes.

作者信息

Herweijer M A, Berden J A, Kemp A, Slater E C

出版信息

Biochim Biophys Acta. 1985 Aug 28;809(1):81-9. doi: 10.1016/0005-2728(85)90170-7.

DOI:10.1016/0005-2728(85)90170-7
PMID:2862915
Abstract

The photoaffinity label 8-azido-ATP has been used to study the effect of inhibition of ATP synthase on ATP-driven reverse electron transfer from succinate to NAD+ ('reversal'), succinate- and NADH-driven ATP synthesis and ATP-Pi exchange. In reversal, where ATPase functions as primary proton pump, inactivation by covalently bound nitreno-ATP results in an inhibition that is proportional to the inactivation of ATP hydrolysis, or, consequently, with the concentration of inactivated ATP synthases. Up to 60% inactivation of the reversal rate does not lead to a decrease in delta mu H+. Inhibition of ATP synthase as secondary proton pump results in case of NADH-driven ATP synthesis in a proportional inhibition, but with succinate as substrate ATP synthesis is less than proportionally inhibited, compared with inactivation of ATP hydrolysis. Inhibition of one of the primary pumps of NADH-driven ATP synthesis, the NADH:Q oxidoreductase, with rotenone also resulted in an inhibition of the rate of ATP synthesis proportional to that of the NADH oxidation. ATP-Pi exchange is much more affected than ATP hydrolysis by photoinactivation with 8-azido-ATP. Contrary to reversal and NADH-driven ATP synthesis the rate of ATP-Pi exchange does not depend linearly, but quadratically on the concentration of active ATP synthases. The observed proportional relationships between inhibition of the primary or secondary pump and the inhibition of the overall energy-transfer reactions do not support the existence of a pool intermediate in energy-transduction reactions. However, the results are consistent with a direct transfer of energy from redox enzymes to ATP synthase and vice versa.

摘要

光亲和标记物8-叠氮基-ATP已被用于研究ATP合酶抑制对ATP驱动的琥珀酸到NAD⁺的逆向电子传递(“逆转”)、琥珀酸和NADH驱动的ATP合成以及ATP-磷酸交换的影响。在逆转过程中,ATP酶作为主要质子泵发挥作用,共价结合的氮烯基-ATP使其失活会导致抑制作用,该抑制作用与ATP水解的失活程度成正比,或者说,与失活的ATP合酶浓度成正比。逆转速率高达60%的失活不会导致ΔμH⁺降低。作为次级质子泵的ATP合酶受到抑制时,在NADH驱动的ATP合成中会产生成比例的抑制,但以琥珀酸为底物时,与ATP水解的失活相比,ATP合成受到的抑制小于成比例抑制。用鱼藤酮抑制NADH驱动的ATP合成的主要泵之一NADH:Q氧化还原酶,也会导致ATP合成速率的抑制与NADH氧化速率成比例。与ATP水解相比,8-叠氮基-ATP光灭活对ATP-磷酸交换的影响要大得多。与逆转和NADH驱动的ATP合成相反,ATP-磷酸交换速率并非线性依赖于活性ATP合酶的浓度,而是呈二次方依赖关系。观察到的初级或次级泵抑制与整体能量传递反应抑制之间的比例关系不支持能量转导反应中存在池中间体。然而,结果与能量从氧化还原酶直接转移到ATP合酶以及反之亦然是一致的。

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