Masutani C, Araki M, Sugasawa K, van der Spek P J, Yamada A, Uchida A, Maekawa T, Bootsma D, Hoeijmakers J H, Hanaoka F
Institute for Molecular and Cellular Biology, Osaka University, Suita, Japan.
Mol Cell Biol. 1997 Dec;17(12):6915-23. doi: 10.1128/MCB.17.12.6915.
hHR23B was originally isolated as a component of a protein complex that specifically complements nucleotide excision repair (NER) defects of xeroderma pigmentosum group C cell extracts in vitro and was identified as one of two human homologs of the Saccharomyces cerevisiae NER gene product Rad23. Recombinant hHR23B has previously been shown to significantly stimulate the NER activity of recombinant human XPC protein (rhXPC). In this study we identify and functionally characterize the XPC-binding domain of hHR23B protein. We prepared various internal as well as terminal deletion products of hHR23B protein in a His-tagged form and examined their binding with rhXPC by using nickel-chelating Sepharose. We demonstrate that a domain covering 56 amino acids of hHR23B is required for binding to rhXPC as well as for stimulation of in vitro NER reactions. Interestingly, a small polypeptide corresponding to the XPC-binding domain is sufficient to exert stimulation of XPC NER activity. Comparison with known crystal structures and analysis with secondary structure programs provided strong indications that the binding domain has a predominantly amphipathic alpha-helical character, consistent with evidence that the affinity with XPC is based on hydrophobic interactions. Our work shows that binding to XPC alone is required and sufficient for the role of hHR23B in in vitro NER but does not rule out the possibility that the protein has additional functions in vivo.
hHR23B最初是作为一种蛋白质复合物的组分被分离出来的,该复合物在体外能特异性地互补C组着色性干皮病细胞提取物的核苷酸切除修复(NER)缺陷,并被鉴定为酿酒酵母NER基因产物Rad23的两个人类同源物之一。先前已证明重组hHR23B能显著刺激重组人XPC蛋白(rhXPC)的NER活性。在本研究中,我们鉴定了hHR23B蛋白的XPC结合结构域并对其进行了功能表征。我们制备了各种His标签形式的hHR23B蛋白内部及末端缺失产物,并使用镍螯合琼脂糖检测它们与rhXPC的结合。我们证明,hHR23B中一个覆盖56个氨基酸的结构域对于与rhXPC的结合以及体外NER反应的刺激是必需的。有趣的是,一个与XPC结合结构域相对应的小多肽足以刺激XPC的NER活性。与已知晶体结构的比较以及二级结构程序分析提供了有力证据,表明该结合结构域主要具有两亲性α螺旋特征,这与与XPC的亲和力基于疏水相互作用的证据一致。我们的工作表明,hHR23B在体外NER中的作用仅需要与XPC结合且这种结合就足够了,但并不排除该蛋白在体内具有其他功能的可能性。