冷冻电镜揭示蝎血蓝蛋白SDS诱导酶活性的结构机制
Structural mechanism of SDS-induced enzyme activity of scorpion hemocyanin revealed by electron cryomicroscopy.
作者信息
Cong Yao, Zhang Qinfen, Woolford David, Schweikardt Thorsten, Khant Htet, Dougherty Matthew, Ludtke Steven J, Chiu Wah, Decker Heinz
机构信息
National Center for Macromolecular Imaging, Baylor College of Medicine, Houston, TX 77030, USA.
出版信息
Structure. 2009 May 13;17(5):749-58. doi: 10.1016/j.str.2009.03.005.
Abstract
Phenoloxidases (POs) occur in all organisms and are involved in skin and hair coloring in mammals, and initiating melanization in wound healing. Mutation or overexpression of PO can cause albinism or melanoma, respectively. SDS can convert inactive PO and the oxygen carrier hemocyanin (Hc) into enzymatically active PO. Here we present single-particle cryo-EM maps at subnanometer resolution and pseudoatomic models of the 24-oligomeric Hc from scorpion Pandinus imperator in resting and SDS-activated states. Our structural analyses led to a plausible mechanism of Hc enzyme PO activation: upon SDS activation, the intrinsically flexible Hc domain I twists away from domains II and III in each subunit, exposing the entrance to the active site; this movement is stabilized by enhanced interhexamer and interdodecamer interactions, particularly in the central linker subunits. This mechanism could be applicable to other type 3 copper proteins, as the active site is highly conserved.
摘要
酚氧化酶(POs)存在于所有生物体中,在哺乳动物的皮肤和毛发着色以及伤口愈合过程中引发黑色素形成方面发挥作用。PO的突变或过表达分别可导致白化病或黑色素瘤。十二烷基硫酸钠(SDS)可将无活性的PO和氧载体血蓝蛋白(Hc)转化为具有酶活性的PO。在此,我们展示了来自帝王蝎(Pandinus imperator)的24聚体Hc在静止状态和SDS激活状态下亚纳米分辨率的单颗粒冷冻电镜图谱以及伪原子模型。我们的结构分析得出了一种关于Hc酶PO激活的合理机制:在SDS激活后,每个亚基中本质上灵活的Hc结构域I从结构域II和III扭转开,暴露出活性位点的入口;这种运动通过增强的六聚体间和十二聚体间相互作用得以稳定,特别是在中央连接亚基中。由于活性位点高度保守,该机制可能适用于其他3型铜蛋白。
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