Furuse Munenori, Tamogami Jun, Hosaka Toshiaki, Kikukawa Takashi, Shinya Naoko, Hato Masakatsu, Ohsawa Noboru, Kim So Young, Jung Kwang Hwan, Demura Makoto, Miyauchi Seiji, Kamo Naoki, Shimono Kazumi, Kimura-Someya Tomomi, Yokoyama Shigeyuki, Shirouzu Mikako
RIKEN Systems and Structural Biology Center, Yokohama 230-0045, Japan.
College of Pharmaceutical Sciences, Matsuyama University, Matsuyama, Ehime 790-8578, Japan.
Acta Crystallogr D Biol Crystallogr. 2015 Nov;71(Pt 11):2203-16. doi: 10.1107/S1399004715015722. Epub 2015 Oct 27.
Although many crystal structures of microbial rhodopsins have been solved, those with sufficient resolution to identify the functional water molecules are very limited. In this study, the Acetabularia rhodopsin I (ARI) protein derived from the marine alga A. acetabulum was synthesized on a large scale by the Escherichia coli cell-free membrane-protein production method, and crystal structures of ARI were determined at the second highest (1.52-1.80 Å) resolution for a microbial rhodopsin, following bacteriorhodopsin (BR). Examinations of the photochemical properties of ARI revealed that the photocycle of ARI is slower than that of BR and that its proton-transfer reactions are different from those of BR. In the present structures, a large cavity containing numerous water molecules exists on the extracellular side of ARI, explaining the relatively low pKa of Glu206(ARI), which cannot function as an initial proton-releasing residue at any pH. An interhelical hydrogen bond exists between Leu97(ARI) and Tyr221(ARI) on the cytoplasmic side, which facilitates the slow photocycle and regulates the pKa of Asp100(ARI), a potential proton donor to the Schiff base, in the dark state.
尽管已经解析出了许多微生物视紫红质的晶体结构,但分辨率足以识别功能性水分子的结构却非常有限。在本研究中,通过大肠杆菌无细胞膜蛋白生产方法大规模合成了源自海洋藻类醋栗藻的醋栗藻视紫红质I(ARI)蛋白,并测定了ARI的晶体结构,其分辨率仅次于细菌视紫红质(BR),为微生物视紫红质第二高的分辨率(1.52 - 1.80 Å)。对ARI光化学性质的研究表明,ARI的光循环比BR慢,并且其质子转移反应与BR不同。在目前的结构中,ARI细胞外侧存在一个包含大量水分子的大腔,这解释了Glu206(ARI)相对较低的pKa值,在任何pH值下它都不能作为初始质子释放残基发挥作用。在细胞质侧,Leu97(ARI)和Tyr221(ARI)之间存在螺旋间氢键,这促进了缓慢的光循环,并在黑暗状态下调节了Asp100(ARI)的pKa值,Asp100(ARI)是席夫碱的潜在质子供体。
