Olland A M, Jané-Valbuena J, Schiff L A, Nibert M L, Harrison S C
Program in Virology, Division of Medical Sciences, Harvard Medical School, Harvard University, Cambridge, MA 02138, USA.
EMBO J. 2001 Mar 1;20(5):979-89. doi: 10.1093/emboj/20.5.979.
The crystallographically determined structure of the reovirus outer capsid protein sigma3 reveals a two-lobed structure organized around a long central helix. The smaller of the two lobes includes a CCHC zinc-binding site. Residues that vary between strains and serotypes lie mainly on one surface of the protein; residues on the opposite surface are conserved. From a fit of this model to a reconstruction of the whole virion from electron cryomicroscopy, we propose that each sigma3 subunit is positioned with the small lobe anchoring it to the protein mu1 on the surface of the virion, and the large lobe, the site of initial cleavages during entry-related proteolytic disassembly, protruding outwards. The surface containing variable residues faces solvent. The crystallographic asymmetric unit contains two sigma3 subunits, tightly associated as a dimer. One broad surface of the dimer has a positively charged surface patch, which extends across the dyad. In infected cells, sigma3 binds dsRNA and inhibits the interferon response. The location and extent of the positively charged surface patch suggest that the dimer is the RNA-binding form of sigma3.
呼肠孤病毒外 capsid 蛋白 sigma3 的晶体学确定结构揭示了一种围绕长中心螺旋组织的双叶结构。两个叶中较小的一个包含一个 CCHC 锌结合位点。菌株和血清型之间不同的残基主要位于蛋白质的一个表面;相反表面的残基是保守的。通过将该模型与电子冷冻显微镜对整个病毒体的重建进行拟合,我们提出每个 sigma3 亚基的定位方式是,小叶将其锚定在病毒体表面的蛋白质 mu1 上,而大叶作为进入相关蛋白水解拆卸过程中初始切割的位点向外突出。含有可变残基的表面面向溶剂。晶体学不对称单元包含两个 sigma3 亚基,紧密结合形成二聚体。二聚体的一个宽表面有一个带正电荷的表面斑块,它横跨二重轴延伸。在受感染的细胞中,sigma3 结合双链 RNA 并抑制干扰素反应。带正电荷表面斑块的位置和范围表明二聚体是 sigma3 的 RNA 结合形式。