Stewart Barry J, Wardle Simon J, Haniford David B
Department of Biochemistry, University of Western Ontario, London, Ontario, Canada N6A 5C1.
EMBO J. 2002 Aug 15;21(16):4380-90. doi: 10.1093/emboj/cdf425.
The frequency of DNA transposition in transposition systems that employ a strand transfer step may be significantly affected by the occurrence of a disintegration reaction, a reaction that reverses the strand transfer event. We have asked whether disintegration occurs in the Tn10 transposition system. We show that disintegration substrates (substrates constituting one half of the strand transfer product) are assembled into a transpososome that mimics the strand transfer intermediate. This strand transfer transpososome (STT) does appear to support an intermolecular disintegration reaction, but only at a very low level. Strikingly, assembly of the STT is not dependent on IHF, a host protein that is required for de novo assembly of all previously characterized Tn10 transpososomes. We suggest that disintegration substrates are able to form both transposon end and target type contacts with transposase because of their enhanced conformational flexibility. This probably allows the conformation of DNA within the complex that prevents the destructive disintegration reaction, and is responsible for relaxing the DNA sequence requirements for STT formation relative to other Tn10 transpososomes.
在采用链转移步骤的转座系统中,DNA转座频率可能会受到解离反应(一种逆转链转移事件的反应)发生的显著影响。我们探究了Tn10转座系统中是否发生解离。我们发现解离底物(构成链转移产物一半的底物)组装成了一种模拟链转移中间体的转座体。这种链转移转座体(STT)似乎确实支持分子间解离反应,但仅在非常低的水平上。引人注目的是,STT的组装不依赖于整合宿主因子(IHF),而IHF是所有先前表征的Tn10转座体从头组装所必需的宿主蛋白。我们认为,解离底物能够与转座酶形成转座子末端和靶标类型的接触,这是因为它们增强的构象灵活性。这可能使得复合物内DNA的构象能够防止破坏性的解离反应,并且相对于其他Tn10转座体,负责放宽STT形成的DNA序列要求。