Orriss G L, Leslie A G, Braig K, Walker J E
Medical Research Council, Laboratory of Molecular Biology, Cambridge, UK.
Structure. 1998 Jul 15;6(7):831-7. doi: 10.1016/s0969-2126(98)00085-9.
F1-ATPase is the globular domain of F1F0-ATP synthase that catalyses the hydrolysis of ATP to ADP and phosphate. The crystal structure of bovine F1-ATPase has been determined previously to 2.8 A resolution. The enzyme comprises five different subunits in the stoichiometry alpha 3 beta 3 gamma delta epsilon; the three catalytic beta subunits alternate with the three alpha subunits around the centrally located single gamma subunit. To understand more about the catalytic mechanisms, F1-ATPase was inhibited by reaction with 4-chloro-7-nitrobenzofurazan (NBD-Cl) and the structure of the inhibited complex (F1-NBD) determined by X-ray crystallography.
In the structure the three beta subunits adopt a different conformation with different nucleotide occupancy. NBD-Cl reacts with the phenolic oxygen of Tyr311 of the beta E subunit, which contains no bound nucleotide. The two other catalytic subunits beta TP and beta DP contain bound adenylyl-imidodiphosphate (AMP-PNP) and ADP, respectively. The binding site of the NBD moiety does not overlap with the regions of beta E that form the nucleotide-binding pocket in subunits beta TP and beta DP nor does it occlude the nucleotide-binding site. Catalysis appears to be inhibited because neither beta TP nor beta DP can accommodate a Tyr311 residue bearing an NBD group.
The results presented here are consistent with a rotary catalytic mechanism of ATP synthesis and hydrolysis, which requires the sequential and concerted participation of all three catalytic sites. NBD-Cl inhibits the enzyme by preventing the modified subunit from adopting a conformation that is essential for catalysis to proceed.
F1 - ATP酶是F1F0 - ATP合酶的球状结构域,催化ATP水解为ADP和磷酸。先前已确定牛F1 - ATP酶的晶体结构分辨率为2.8埃。该酶由化学计量比为α3β3γδε的五个不同亚基组成;三个催化β亚基与三个α亚基围绕位于中心的单个γ亚基交替排列。为了更深入了解催化机制,F1 - ATP酶通过与4 - 氯 - 7 - 硝基苯并呋喃(NBD - Cl)反应而被抑制,并通过X射线晶体学确定了抑制复合物(F1 - NBD)的结构。
在该结构中,三个β亚基呈现出不同的构象且核苷酸占据情况不同。NBD - Cl与βE亚基的Tyr311的酚氧反应,该亚基不含有结合的核苷酸。另外两个催化亚基βTP和βDP分别含有结合的腺苷酰 - 亚氨二磷酸(AMP - PNP)和ADP。NBD部分的结合位点与βTP和βDP亚基中形成核苷酸结合口袋的βE区域不重叠,也不封闭核苷酸结合位点。催化似乎受到抑制,因为βTP和βDP都无法容纳带有NBD基团的Tyr311残基。
此处呈现的结果与ATP合成和水解的旋转催化机制一致,这需要所有三个催化位点的顺序和协同参与。NBD - Cl通过阻止被修饰的亚基采用对催化进行至关重要的构象来抑制该酶。
