Kingston R L, Fitzon-Ostendorp T, Eisenmesser E Z, Schatz G W, Vogt V M, Post C B, Rossmann M G
Department of Biological Sciences, Purdue University, West Lafayette, IN 47907, USA.
Structure. 2000 Jun 15;8(6):617-28. doi: 10.1016/s0969-2126(00)00148-9.
The capsid protein (CA) of retroviruses, such as Rous sarcoma virus (RSV), consists of two independently folded domains. CA functions as part of a polyprotein during particle assembly and budding and, in addition, forms a shell encapsidating the genomic RNA in the mature, infectious virus.
The structures of the N- and C-terminal domains of RSV CA have been determined by X-ray crystallography and solution nuclear magnetic resonance (NMR) spectroscopy, respectively. The N-terminal domain comprises seven alpha helices and a short beta hairpin at the N terminus. The N-terminal domain associates through a small, tightly packed, twofold symmetric interface within the crystal, different from those previously described for other retroviral CAs. The C-terminal domain is a compact bundle of four alpha helices, although the last few residues are disordered. In dilute solution, RSV CA is predominantly monomeric. We show, however, using electron microscopy, that intact RSV CA can assemble in vitro to form both tubular structures constructed from toroidal oligomers and planar monolayers. Both modes of assembly occur under similar solution conditions, and both sheets and tubes exhibit long-range order.
The tertiary structure of CA is conserved across the major retroviral genera, yet sequence variations are sufficient to cause change in associative behavior. CA forms the exterior shell of the viral core in all mature retroviruses. However, the core morphology differs between viruses. Consistent with this observation, we find that the capsid proteins of RSV and human immunodeficiency virus type 1 exhibit different associative behavior in dilute solution and assemble in vitro into different structures.
逆转录病毒,如劳氏肉瘤病毒(RSV)的衣壳蛋白(CA)由两个独立折叠的结构域组成。在病毒粒子组装和出芽过程中,CA作为多蛋白的一部分发挥作用,此外,在成熟的感染性病毒中,CA还形成包裹基因组RNA的外壳。
分别通过X射线晶体学和溶液核磁共振(NMR)光谱法确定了RSV CA的N端和C端结构域的结构。N端结构域由七个α螺旋和N端的一个短β发夹组成。N端结构域通过晶体中一个小的、紧密堆积的二重对称界面缔合,这与先前描述的其他逆转录病毒CA的界面不同。C端结构域是由四个α螺旋组成的紧密束,尽管最后几个残基无序。在稀溶液中,RSV CA主要为单体。然而,我们通过电子显微镜显示,完整的RSV CA可以在体外组装形成由环形寡聚体构建的管状结构和平板单层结构。两种组装模式都在相似的溶液条件下发生,并且片层和管状结构都表现出长程有序。
CA的三级结构在主要的逆转录病毒属中是保守的,但序列变异足以导致缔合行为的改变。在所有成熟的逆转录病毒中,CA形成病毒核心的外壳。然而,不同病毒之间的核心形态不同。与这一观察结果一致,我们发现RSV和人类免疫缺陷病毒1型的衣壳蛋白在稀溶液中表现出不同的缔合行为,并在体外组装成不同的结构。
