Battiste J L, Tan R, Frankel A D, Williamson J R
Department of Chemistry, Massachusetts Institute of Technology, Cambridge 02139, USA.
J Biomol NMR. 1995 Dec;6(4):375-89. doi: 10.1007/BF00197637.
The Rev Response Element (RRE) RNA-Rev protein interaction is important for regulation of gene expression in the human immunodeficiency virus. A model system for this interaction, which includes stem IIB of the RRE RNA and an arginine-rich peptide from the RNA-binding domain of Rev, was studied using multidimensional heteronuclear NMR. Assignment of the RNA when bound to the peptide was obtained from NMR experiments utilizing uniformly and specifically 13C-labeled RNA. Isotopic filtering experiments on the specifically labeled RNA enable unambiguous assignment of unusual nonsequential NOE patterns present in the internal loop of the RRE. A three-dimensional model of the RNA in the complex was obtained using restrained molecular dynamics calculations. The internal loop contains two purine-purine base pairs, which are stacked to form one continuous helix flanked by two A-form regions. The formation of a G-G base pair in the internal loop requires an unusual structure of the phosphate backbone. This structural feature is consistent with mutational data as being important for the binding of Rev to the RRE. The G-G base pair may play an important role in opening the normally narrow major groove of A-form RNA to permit binding of the Rev basic domain.
Rev反应元件(RRE)RNA与Rev蛋白的相互作用对于人类免疫缺陷病毒中基因表达的调控至关重要。使用多维异核核磁共振研究了这种相互作用的模型系统,该系统包括RRE RNA的茎IIB和来自Rev RNA结合结构域的富含精氨酸的肽段。通过使用均匀和特异性13C标记的RNA的核磁共振实验,获得了与肽段结合时RNA的归属。对特异性标记的RNA进行的同位素过滤实验能够明确归属RRE内环中存在的不寻常的非顺序NOE模式。使用受限分子动力学计算获得了复合物中RNA的三维模型。内环包含两个嘌呤-嘌呤碱基对,它们堆叠形成一个连续的螺旋,两侧是两个A-型区域。内环中G-G碱基对的形成需要磷酸骨架具有不寻常的结构。这一结构特征与突变数据一致,表明其对Rev与RRE的结合很重要。G-G碱基对可能在打开通常狭窄的A-型RNA大沟以允许Rev碱性结构域结合方面发挥重要作用。
