Shirakihara Y, Leslie A G, Abrahams J P, Walker J E, Ueda T, Sekimoto Y, Kambara M, Saika K, Kagawa Y, Yoshida M
Department of Physics, Hyogo University of Education, Japan.
Structure. 1997 Jun 15;5(6):825-36. doi: 10.1016/s0969-2126(97)00236-0.
F1-ATPase, an oligomeric assembly with subunit stoichiometry alpha 3 beta 3 gamma delta epsilon, is the catalytic component of the ATP synthase complex, which plays a central role in energy transduction in bacteria, chloroplasts and mitochondria. The crystal structure of bovine mitochondrial F1-ATPase displays a marked asymmetry in the conformation and nucleotide content of the catalytic beta subunits. The alpha 3 beta 3 subcomplex of F1-ATPase has been assembled from subunits of the moderately thermophilic Bacillus PS3 made in Escherichia coli, and the subcomplex is active but does not show the catalytic cooperativity of intact F1-ATPase. The structure of this subcomplex should provide new information on the conformational variability of F1-ATPase and may provide insights into the unusual catalytic mechanism employed by this enzyme.
The crystal structure of the nucleotide-free bacterial alpha 3 beta 3 subcomplex of F1-ATPase, determined at 3.2 A resolution, shows that the oligomer has exact threefold symmetry. The bacterial beta subunits adopt a conformation essentially identical to that of the nucleotide-free beta subunit in mitochondrial F1-ATPase; the alpha subunits have similar conformations in both structures.
The structures of the bacterial F1-ATPase alpha and beta subunits are very similar to their counterparts in the mitochondrial enzyme, suggesting a common catalytic mechanism. The study presented here allows an analysis of the different conformations adopted by the alpha and beta subunits and may ultimately further our understanding of this mechanism.
F1 - ATP合酶是一种具有α3β3γδε亚基化学计量比的寡聚体,是ATP合酶复合体的催化组分,在细菌、叶绿体和线粒体的能量转导中起核心作用。牛线粒体F1 - ATP合酶的晶体结构在催化β亚基的构象和核苷酸含量上显示出明显的不对称性。F1 - ATP合酶的α3β3亚复合体已由在大肠杆菌中表达的嗜热芽孢杆菌PS3的亚基组装而成,该亚复合体具有活性,但不显示完整F1 - ATP合酶的催化协同性。该亚复合体的结构应能提供有关F1 - ATP合酶构象变异性的新信息,并可能有助于深入了解该酶所采用的独特催化机制。
以3.2埃分辨率测定的无核苷酸细菌F1 - ATP合酶α3β3亚复合体的晶体结构表明,该寡聚体具有精确的三重对称性。细菌β亚基采用的构象与线粒体F1 - ATP合酶中无核苷酸β亚基的构象基本相同;两种结构中的α亚基具有相似的构象。
细菌F1 - ATP合酶α和β亚基的结构与其线粒体对应物非常相似,表明存在共同的催化机制。本文的研究有助于分析α和β亚基所采用的不同构象,并最终可能进一步加深我们对该机制的理解。
