Qian X, Jeon C, Yoon H, Agarwal K, Weiss M A
Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, Boston, Massachusetts 02115.
Nature. 1993 Sep 16;365(6443):277-9. doi: 10.1038/365277a0.
Transcriptional elongation involves dynamic interactions among RNA polymerase and single-stranded and double-stranded nucleic acids in the ternary complex. In prokaryotes its regulation provides an important mechanism of genetic control. Analogous eukaryotic mechanisms are not well understood, but may control expression of proto-oncogenes and viruses, including the human immunodeficiency virus HIV-1 (ref. 8). The highly conserved eukaryotic transcriptional elongation factor TFIIS enables RNA polymerase II (RNAPII) to read though pause or termination sites, nucleosomes and sequence-specific DNA-binding proteins. Two distinct domains of human TFIIS, which bind RNAPII and nucleic acids, regulate read-through and possibly nascent transcript cleavage. Here we describe the three-dimensional NMR structure of a Cys4 nucleic-acid-binding domain from human TFIIS. Unlike previously characterized zinc modules, which contain an alpha-helix, this structure consists of a three-stranded beta-sheet. Analogous Cys4 structural motifs may occur in other proteins involved in DNA or RNA transactions, including RNAPII itself. This new structure, designated the Zn ribbon, extends the repertoire of Zn-mediated peptide architectures and highlights the growing recognition of the beta-sheet as a motif of nucleic-acid recognition.
转录延伸涉及三元复合物中RNA聚合酶与单链和双链核酸之间的动态相互作用。在原核生物中,其调控提供了一种重要的基因控制机制。类似的真核生物机制尚未得到充分理解,但可能控制原癌基因和病毒的表达,包括人类免疫缺陷病毒HIV-1(参考文献8)。高度保守的真核转录延伸因子TFIIS能使RNA聚合酶II(RNAPII)通读暂停或终止位点、核小体和序列特异性DNA结合蛋白。人TFIIS的两个不同结构域分别与RNAPII和核酸结合,调节通读并可能参与新生转录本的切割。在此,我们描述了人TFIIS的Cys4核酸结合结构域的三维核磁共振结构。与先前表征的含有α-螺旋的锌模块不同,该结构由一个三链β-折叠组成。类似的Cys4结构基序可能出现在其他参与DNA或RNA事务的蛋白质中,包括RNAPII本身。这种新结构被称为锌带,扩展了锌介导的肽结构的种类,并突出了人们日益认识到β-折叠作为核酸识别基序的重要性。
