A Novel Induced-fit Reaction Mechanism of Asymmetric Hot Dog Thioesterase PaaI
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- 作者:Naoki Kunishima ; Yukuhiko Asada ; Mayumi Sugahara ; Jun Ishijima ; Yuichi Nodake ; Mitsuaki Sugahara ; Masashi Miyano ; Seiki Kuramitsu ; Shigeyuki Yokoyama and Michihiro Sugahara
- 刊名:Journal of Molecular Biology
- 出版年:2005
- 出版时间:2005
- 年:2005
- 卷:352
- 期:1
- 页码:212-228
- 全文大小:1226 K
文摘
Hot dog fold proteins sharing the characteristic “hot dog” fold are known to involve certain coenzyme A binding enzymes with various oligomeric states. In order to elucidate the oligomerization–function relationship of the hot dog fold proteins, crystal structures of the phenylacetate degradation protein PaaI from Thermus thermophilus HB8 (TtPaaI), a tetrameric acyl-CoA thioesterase with the hot dog fold, have been determined and compared with those of other family members. In the liganded crystal forms with coenzyme A derivatives, only two of four intersubunit catalytic pockets of the TtPaaI tetramer are occupied by the ligands. A detailed structural comparison between several liganded and unliganded forms reveals that a subtle rigid-body rearrangement of subunits within 2° upon binding of the first two ligand molecules can induce a strict negative cooperativity to prevent further binding at the remaining two pockets, indicating that the so-called “half-of-the-sites reactivity” of oligomeric enzymes is visualized for the first time. Considering kinetic and mutational analyses together, a possible reaction mechanism of TtPaaI is proposed; one tetramer binds only two acyl-CoA molecules with a novel asymmetric induced-fit mechanism and carries out the hydrolysis according to a base-catalyzed reaction through activation of a water molecule by Asp48. From a structural comparison with other family members, it is concluded that a subgroup of the hot dog fold protein family, referred to as “asymmetric hot dog thioesterases” including medium chain acyl-CoA thioesterase II from Escherichia coli and human thioesterase III, might share the same oligomerization mode and the asymmetric induced-fit mechanism as observed in TtPaaI.