Nova-1和Nova-2 K-同源性RNA结合结构域的晶体结构。

Crystal structures of Nova-1 and Nova-2 K-homology RNA-binding domains.

作者信息

Lewis H A, Chen H, Edo C, Buckanovich R J, Yang Y Y, Musunuru K, Zhong R, Darnell R B, Burley S K

机构信息

Laboratories of Molecular Biophysics, Howard Hughes Medical Institute, The Rockefeller University, 1230 York Avenue, New York, NY, 10021 USA.

出版信息

Structure. 1999 Feb 15;7(2):191-203. doi: 10.1016/S0969-2126(99)80025-2.

DOI:10.1016/S0969-2126(99)80025-2

PMID:10368286

Abstract

BACKGROUND

Nova-1 and Nova-2 are related neuronal proteins that were initially cloned using antisera obtained from patients with the autoimmune neurological disease paraneoplastic opsoclonus-myoclonus ataxia (POMA). Both of these disease gene products contain three RNA-binding motifs known as K-homology or KH domains, and their RNA ligands have been identified via binding-site selection experiments. The KH motif structure has been determined previously using NMR spectroscopy, but not using X-ray crystallography. Many proteins contain more than one KH domain, yet there is no published structural information regarding the behavior of such multimers.

RESULTS

We have obtained the first X-ray crystallographic structures of KH-domain-containing proteins. Structures of the third KH domains (KH3) of Nova-1 and Nova-2 were determined by multiple isomorphous replacement and molecular replacement at 2.6 A and 2.0 A, respectively. These highly similar RNA-binding motifs form a compact protease-resistant domain resembling an open-faced sandwich, consisting of a three-stranded antiparallel beta sheet topped by three alpha helices. In both Nova crystals, the lattice is composed of symmetric tetramers of KH3 domains that are created by two dimer interfaces.

CONCLUSIONS

The crystal structures of both Nova KH3 domains are similar to the previously determined NMR structures. The most significant differences among the KH domains involve changes in the positioning of one or more of the alpha helices with respect to the betasheet, particularly in the NMR structure of the KH1 domain of the Fragile X disease protein FMR-1. Loop regions in the KH domains are clearly visible in the crystal structure, unlike the NMR structures, revealing the conformation of the invariant Gly-X-X-Gly segment that is thought to participate in RNA-binding and of the variable region. The tetrameric arrangements of the Nova KH3 domains provide insights into how KH domains may interact with each other in proteins containing multiple KH motifs.

摘要

背景

Nova - 1和Nova - 2是相关的神经元蛋白，最初是使用从患有自身免疫性神经疾病副肿瘤性眼阵挛 - 肌阵挛性共济失调（POMA）的患者获得的抗血清克隆得到的。这两种疾病基因产物都包含三个称为K - 同源或KH结构域的RNA结合基序，并且它们的RNA配体已通过结合位点选择实验鉴定出来。KH基序结构先前已通过核磁共振光谱法确定，但尚未通过X射线晶体学确定。许多蛋白质包含不止一个KH结构域，但关于此类多聚体行为的结构信息尚未见报道。

结果

我们获得了含KH结构域蛋白的首个X射线晶体学结构。Nova - 1和Nova - 2的第三个KH结构域（KH3）的结构分别通过多同晶置换和分子置换在2.6 Å和2.0 Å分辨率下确定。这些高度相似的RNA结合基序形成一个紧凑的抗蛋白酶结构域，类似于一个开放式三明治，由一个三链反平行β折叠片层和顶部的三个α螺旋组成。在两个Nova晶体中，晶格由通过两个二聚体界面形成的KH3结构域的对称四聚体组成。

结论

两种Nova KH3结构域的晶体结构与先前确定的核磁共振结构相似。KH结构域之间最显著的差异涉及一个或多个α螺旋相对于β折叠片层的位置变化，特别是在脆性X疾病蛋白FMR - 1的KH1结构域的核磁共振结构中。与核磁共振结构不同，KH结构域中的环区在晶体结构中清晰可见，揭示了被认为参与RNA结合的不变Gly - X - X - Gly片段和可变区的构象。Nova KH3结构域的四聚体排列为理解KH结构域在含有多个KH基序的蛋白质中如何相互作用提供了线索。