Blake D G, Boocock M R, Sherratt D J, Stark W M
Biomedical Research Centre, Dundee University, Ninewells Hospital and Medical School, UK.
Curr Biol. 1995 Sep 1;5(9):1036-46. doi: 10.1016/s0960-9822(95)00208-9.
The inverted repeat is a common feature of protein-binding sites in DNA. The two-fold symmetry of the inverted repeat corresponds to the two-fold symmetry of the protein that binds to it. In most natural inverted-repeat binding sites, however, the DNA sequence does not have perfect two-fold symmetry. Our study of how a site-specific recombinase recognizes an inverted-repeat binding site indicates that such sequence asymmetry can be functionally important.
Tn3 resolvase forms two complexes with the 34 base-pair binding site II of its recombination region, res. A resolvase monomer first binds at the left end of the site; a second monomer then binds cooperatively at the right end. In both complexes, the DNA is bent by resolvase. In contrast, the closely related gamma delta resolvase binds to site II mainly as a dimer. Insertion of 5 or 10 base pairs at the centre of the site does not prevent cooperative binding of two Tn3 resolvase subunits. The fully occupied site II has a very asymmetric structure. Reversal of the orientation of site II in res blocks recombination; thus, its asymmetric properties are functionally important. We propose a structure for the two-subunit complex formed with site II, based on our results and by analogy with the co-crystal structure of gamma delta resolvase bound to res site I.
Deviations from perfect inverted-repeat symmetry in a resolvase-binding site lead to ordered binding of subunits, structural asymmetry of resolvase-DNA complexes, and asymmetric function.
反向重复序列是DNA中蛋白质结合位点的常见特征。反向重复序列的二重对称性与与之结合的蛋白质的二重对称性相对应。然而,在大多数天然的反向重复序列结合位点中,DNA序列并不具有完美的二重对称性。我们对位点特异性重组酶如何识别反向重复序列结合位点的研究表明,这种序列不对称性在功能上可能很重要。
Tn3解离酶与其重组区域res的34个碱基对结合位点II形成两种复合物。一个解离酶单体首先结合在位点的左端;然后第二个单体协同结合在右端。在这两种复合物中,DNA都被解离酶弯曲。相比之下,密切相关的γδ解离酶主要以二聚体形式结合到位点II。在位点中心插入5或10个碱基对并不妨碍两个Tn3解离酶亚基的协同结合。完全占据的位点II具有非常不对称的结构。res中位点II方向的反转会阻止重组;因此,其不对称特性在功能上很重要。基于我们的结果并通过与结合到res位点I的γδ解离酶的共晶体结构进行类比,我们提出了与位点II形成的二亚基复合物的结构。
解离酶结合位点中与完美反向重复对称性的偏差导致亚基的有序结合、解离酶-DNA复合物的结构不对称以及不对称功能。
