Gibbs J S, Chiou H C, Bastow K F, Cheng Y C, Coen D M
Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, Boston, MA 02115.
Proc Natl Acad Sci U S A. 1988 Sep;85(18):6672-6. doi: 10.1073/pnas.85.18.6672.
Herpes simplex virus (HSV) encodes a DNA polymerase that is similar in several respects to the replicative mammalian DNA polymerase alpha. Recently, these and other DNA polymerases have been shown to share several regions of protein sequence similarity. Despite these similarities, antiviral drugs that mimic natural polymerase substrates specifically inhibit herpesvirus DNA polymerases. To study amino acids involved in substrate and drug recognition, we have characterized and mapped altered drug sensitivity markers of nine HSV pol mutants and sequenced the relevant portions of these mutants. The mutations were found to occur within four relatively small regions. One such region, which we designate region A, has sequence similarity only to DNA polymerases that are sensitive to certain antiviral drugs. The other three regions contain sequences that are similar among various DNA polymerases. The multiple mutations occurring within two of these regions make it likely that the regions interact directly with drugs and substrates. Our results lead us to favor a model in which protein folding allows interactions among the four regions to form the substrate and drug binding sites.
单纯疱疹病毒(HSV)编码一种DNA聚合酶,该酶在几个方面与复制性哺乳动物DNA聚合酶α相似。最近,已证明这些DNA聚合酶以及其他DNA聚合酶在蛋白质序列上有几个相似区域。尽管存在这些相似性,但模拟天然聚合酶底物的抗病毒药物能特异性抑制疱疹病毒DNA聚合酶。为了研究参与底物和药物识别的氨基酸,我们对九个HSV pol突变体的改变药物敏感性标记进行了表征和定位,并对这些突变体的相关部分进行了测序。发现突变发生在四个相对较小的区域内。其中一个区域,我们命名为A区域,其序列仅与对某些抗病毒药物敏感的DNA聚合酶相似。其他三个区域包含各种DNA聚合酶之间相似的序列。在其中两个区域内发生的多个突变表明,这些区域可能直接与药物和底物相互作用。我们的结果使我们倾向于一种模型,即蛋白质折叠允许四个区域之间相互作用形成底物和药物结合位点。