Vuidepot A L, Bontems F, Gervais M, Guiard B, Shechter E, Lallemand J Y
Groupe de RMN, DCSO, Ecole Polytechnique, F91128 Palaiseau, France.
Nucleic Acids Res. 1997 Aug 1;25(15):3042-50. doi: 10.1093/nar/25.15.3042.
The DNA binding domain of the yeast transcriptional activator CYP1(HAP1) contains a zinc-cluster structure. The structures of the DNA binding domain-DNA complexes of two other zinc-cluster proteins (GAL4 and PPR1) have been studied by X-ray crystallography. Their binding domains present, besides the zinc cluster, a short linker peptide and a dimerization element. They recognize, as homodimers, two rotationally symmetric CGG trinucleotides, the linker peptide and the dimerization element playing a crucial role in binding specificity. Surprisingly, CYP1 recognizes degenerate forms of a direct repeat, CGGnnnTAnCGGnnnTA, and the role of its linker is under discussion. To better understand the binding specificity of CYP1, we have studied, by NMR, the interaction between the CYP1(55-126) peptide and two DNA fragments derived from the CYC1 upstream activation sequence 1B. Our data indicate that CYP1(55-126) interacts with a CGG and with a thymine 5 bp downstream. The CGG trinucleotide is recognized by the zinc cluster in the major groove, as for GAL4 and PPR1, and the thymine is bound in the minor groove by the N-terminal region, which possesses a basic stretch of arginyl and lysyl residues. This suggests that the CYP1(55-126) N-terminal region could play a role in the affinity and/or specificity of the interaction with its DNA targets, in contrast to GAL4 and PPR1.
酵母转录激活因子CYP1(HAP1)的DNA结合结构域包含一个锌簇结构。另外两种锌簇蛋白(GAL4和PPR1)的DNA结合结构域-DNA复合物的结构已通过X射线晶体学进行了研究。除锌簇外,它们的结合结构域还存在一个短连接肽和一个二聚化元件。它们作为同二聚体识别两个旋转对称的CGG三核苷酸,连接肽和二聚化元件在结合特异性中起关键作用。令人惊讶的是,CYP1识别直接重复序列CGGnnnTAnCGGnnnTA的简并形式,其连接肽的作用仍在讨论中。为了更好地理解CYP1的结合特异性,我们通过核磁共振研究了CYP1(55-126)肽与源自CYC1上游激活序列1B的两个DNA片段之间的相互作用。我们的数据表明,CYP1(55-126)与一个CGG以及下游5个碱基对处的一个胸腺嘧啶相互作用。与GAL4和PPR1一样,CGG三核苷酸在大沟中被锌簇识别,胸腺嘧啶通过N端区域结合在小沟中,该区域具有一段由精氨酸和赖氨酸残基组成的碱性序列。这表明,与GAL4和PPR1不同,CYP1(55-126)的N端区域可能在与其DNA靶标的相互作用的亲和力和/或特异性中发挥作用。