Elrod-Erickson M, Benson T E, Pabo C O
Department of Biology, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.
Structure. 1998 Apr 15;6(4):451-64. doi: 10.1016/s0969-2126(98)00047-1.
Zinc fingers of the Cys2-His2 class comprise one of the largest families of eukaryotic DNA-binding motifs and recognize a diverse set of DNA sequences. These proteins have a relatively simple modular structure and key base contacts are typically made by a few residues from each finger. These features make the zinc finger motif an attractive system for designing novel DNA-binding proteins and for exploring fundamental principles of protein-DNA recognition.
Here we report the X-ray crystal structures of zinc finger-DNA complexes involving three variants of Zif268, with multiple changes in the recognition helix of finger one. We describe the structure of each of these three-finger peptides bound to its corresponding target site. To help elucidate the differential basis for site-specific recognition, the structures of four other complexes containing various combinations of these peptides with alternative binding sites have also been determined.
The protein-DNA contacts observed in these complexes reveal the basis for the specificity demonstrated by these Zif268 variants. Many, but not all, of the contacts can be rationalized in terms of a recognition code, but the predictive value of such a code is limited. The structures illustrate how modest changes in the docking arrangement accommodate the new sidechain-base and sidechain-phosphate interactions. Such adaptations help explain the versatility of naturally occurring zinc finger proteins and their utility in design.
Cys2-His2类锌指构成了真核生物DNA结合基序中最大的家族之一,可识别多种DNA序列。这些蛋白质具有相对简单的模块化结构,关键的碱基接触通常由每个锌指中的少数几个残基形成。这些特性使锌指基序成为设计新型DNA结合蛋白和探索蛋白质-DNA识别基本原理的有吸引力的系统。
在此我们报告了涉及Zif268三种变体的锌指-DNA复合物的X射线晶体结构,其中第一个锌指的识别螺旋有多处变化。我们描述了这三种三指肽与各自相应靶位点结合的结构。为了帮助阐明位点特异性识别的差异基础,还确定了包含这些肽与替代结合位点的各种组合的其他四种复合物的结构。
在这些复合物中观察到的蛋白质-DNA接触揭示了这些Zif268变体所表现出的特异性基础。许多(但不是全部)接触可以根据识别密码进行合理化解释,但这种密码的预测价值有限。这些结构说明了对接排列中的适度变化如何适应新的侧链-碱基和侧链-磷酸相互作用。这种适应性有助于解释天然存在的锌指蛋白的多功能性及其在设计中的实用性。
