Pavlova Penka, Shimabukuro Katsuya, Hisabori Toru, Groth Georg, Lill Holger, Bald Dirk
Department of Structural Biology, Faculty of Earth and Life Science, Vrije Universiteit Amsterdam, The Netherlands.
J Biol Chem. 2004 Mar 12;279(11):9685-8. doi: 10.1074/jbc.C400014200. Epub 2004 Jan 22.
During hydrolysis of ATP, the gamma subunit of the rotary motor protein F(1)-ATPase rotates within a ring of alpha(3)beta(3) subunits. Tentoxin is a phyto-pathogenic cyclic tetrapeptide, which influences F(1)-ATPase activity of sensitive species. At low concentrations, tentoxin inhibits ATP hydrolysis of ensembles of F(1) molecules in solution. At higher concentrations, however, ATP hydrolysis recovers. Here we have examined how tentoxin acts on individual molecules of engineered F(1)-ATPase from the thermophilic Bacillus PS3 (Groth, G., Hisabori, T., Lill, H., and Bald, D. (2002) J. Biol. Chem. 277, 20117-20119). We found that inhibition by tentoxin caused a virtually complete stop of rotation, which was partially relieved at higher tentoxin concentrations. Re-activation, however, was not simply a reversal of inhibition; while the torque appears unaffected as compared with the situation without tentoxin, F(1) under re-activating conditions was less susceptible to inhibitory ADP binding but displayed a large number of short pauses, indicating infringed energy conversion.
在ATP水解过程中,旋转马达蛋白F(1)-ATP酶的γ亚基在α(3)β(3)亚基环内旋转。细交链孢菌酮酸是一种植物致病环四肽,它会影响敏感物种的F(1)-ATP酶活性。在低浓度下,细交链孢菌酮酸会抑制溶液中F(1)分子集合体的ATP水解。然而,在较高浓度下,ATP水解会恢复。在此,我们研究了细交链孢菌酮酸如何作用于嗜热芽孢杆菌PS3的工程化F(1)-ATP酶的单个分子(格罗特,G.,久堀,T.,利尔,H.,和鲍尔德,D.(2002年)《生物化学杂志》277,20117 - 20119)。我们发现细交链孢菌酮酸引起的抑制几乎使旋转完全停止,在较高的细交链孢菌酮酸浓度下这种抑制会部分缓解。然而,重新激活并非简单地是抑制的逆转;与没有细交链孢菌酮酸的情况相比,扭矩似乎未受影响,但在重新激活条件下F(1)对抑制性ADP结合的敏感性较低,但会出现大量短暂停顿,这表明能量转换受到了影响。
