Watkins Stephan, van Pouderoyen Gertie, Sixma Titia K
Division of Molecular Carcinogenesis, Netherlands Cancer Institute, Plesmanlaan 121, 1066 CX Amsterdam, The Netherlands.
Nucleic Acids Res. 2004 Aug 10;32(14):4306-12. doi: 10.1093/nar/gkh770. Print 2004.
The bipartite DNA-binding domain of Tc3 transposase, Tc3A, was crystallized in complex with its transposon recognition sequence. In the structure the two DNA-binding domains form structurally related helix-turn-helix (HTH) motifs. They both bind to the major groove on a single DNA oligomer, separated by a linker that interacts closely with the minor groove. The structure resembles that of the transcription factor Pax6 DNA-binding domain, but the relative orientation of the HTH-domain is different. The DNA conformation is distorted, characterized by local narrowing of the minor groove and bends at both ends. The protein-DNA recognition takes place through base and backbone contacts, as well as shape-recognition of the distortions in the DNA. Charged interactions are primarily found in the N-terminal domain and the linker indicating that these may form the initial contact area. Two independent dimer interfaces could be relevant for bringing together transposon ends and for binding to a direct repeat site in the transposon end. In contrast to the Tn5 synaptic complex, the two Tc3A DNA-binding domains bind to a single Tc3 transposon end.
转座酶Tc3的二分体DNA结合结构域Tc3A与其转座子识别序列形成复合物后结晶。在该结构中,两个DNA结合结构域形成结构相关的螺旋-转角-螺旋(HTH)基序。它们都结合在单个DNA寡聚物的大沟上,由与小沟紧密相互作用的连接子隔开。该结构类似于转录因子Pax6的DNA结合结构域,但HTH结构域的相对取向不同。DNA构象发生扭曲,其特征是小沟局部变窄且两端弯曲。蛋白质与DNA的识别通过碱基和骨架接触以及对DNA中扭曲的形状识别来进行。带电相互作用主要存在于N端结构域和连接子中,这表明这些可能形成初始接触区域。两个独立的二聚体界面可能与将转座子末端聚集在一起以及与转座子末端的直接重复位点结合有关。与Tn5突触复合物不同,两个Tc3A DNA结合结构域结合到单个Tc3转座子末端。