Department of Chemistry, University of Toronto, Toronto, ON, M5S 3H6, Canada.
Department of Biochemistry, University of Toronto, Toronto, ON, M5S 1A8, Canada.
Sci Rep. 2022 Aug 17;12(1):13955. doi: 10.1038/s41598-022-17716-9.
Within the microbial rhodopsin family, heliorhodopsins (HeRs) form a phylogenetically distinct group of light-harvesting retinal proteins with largely unknown functions. We have determined the 1.97 Å resolution X-ray crystal structure of Thermoplasmatales archaeon SG8-52-1 heliorhodopsin (TaHeR) in the presence of NaCl under acidic conditions (pH 4.5), which complements the known 2.4 Å TaHeR structure acquired at pH 8.0. The low pH structure revealed that the hydrophilic Schiff base cavity (SBC) accommodates a chloride anion to stabilize the protonated retinal Schiff base when its primary counterion (Glu-108) is neutralized. Comparison of the two structures at different pH revealed conformational changes connecting the SBC and the extracellular loop linking helices A-B. We corroborated this intramolecular signaling transduction pathway with computational studies, which revealed allosteric network changes propagating from the perturbed SBC to the intracellular and extracellular space, suggesting TaHeR may function as a sensory rhodopsin. This intramolecular signaling mechanism may be conserved among HeRs, as similar changes were observed for HeR 48C12 between its pH 8.8 and pH 4.3 structures. We additionally performed DEER experiments, which suggests that TaHeR forms possible dimer-of-dimer associations which may be integral to its putative functionality as a light sensor in binding a transducer protein.
在微生物视紫红质家族中,盐细菌视紫红质(HeRs)形成了一个在系统发育上截然不同的光捕获视蛋白家族,其功能在很大程度上尚不清楚。我们在酸性条件(pH 4.5)下存在 NaCl 的情况下,确定了Thermoplasmatales 古菌 SG8-52-1 盐细菌视紫红质(TaHeR)的 1.97Å分辨率 X 射线晶体结构,这补充了在 pH 8.0 下获得的已知 2.4Å TaHeR 结构。该低 pH 值结构表明,亲水性席夫碱腔(SBC)容纳了一个氯离子,以稳定质子化的视黄醛席夫碱,此时其主要的反离子(Glu-108)呈中性。在不同 pH 值下比较这两个结构,揭示了连接 SBC 和连接 A-B 螺旋的细胞外环的构象变化。我们通过计算研究证实了这种分子内信号转导途径,该研究揭示了从受扰 SBC 到细胞内和细胞外空间传播的变构网络变化,表明 TaHeR 可能作为一种感觉视紫红质发挥作用。这种分子内信号机制可能在 HeRs 中保守存在,因为在其 pH 8.8 和 pH 4.3 结构之间,HeR 48C12 也观察到了类似的变化。我们还进行了 DEER 实验,这表明 TaHeR 可能形成了可能的二聚体-二聚体缔合,这可能是其作为光传感器结合转导蛋白的功能所必需的。
