Target-site selection by retroviral integrase (IN) proteins profoundly affects viral pathogenesis. We describe the solution nuclear magnetic resonance structure of the Moloney murine leukemia virus IN (M-MLV) C-terminal domain (CTD) and a structural homology model of the catalytic core domain (CCD). In solution, the isolated MLV IN CTD adopts an SH3 domain fold flanked by a C-terminal unstructured tail. We generated a concordant MLV IN CCD structural model using SWISS-MODEL, MMM-tree and I-TASSER. Using the X-ray crystal structure of the prototype foamy virus IN target capture complex together with our MLV domain structures, residues within the CCD α2 helical region and the CTD β1-β2 loop were predicted to bind target DNA. The role of these residues was analyzed in vivo through point mutants and motif interchanges. Viable viruses with substitutions at the IN CCD α2 helical region and the CTD β1-β2 loop were tested for effects on integration target site selection. Next-generation sequencing and analysis of integration target sequences indicate that the CCD α2 helical region, in particular P187, interacts with the sequences distal to the scissile bonds whereas the CTD β1-β2 loop binds to residues proximal to it. These findings validate our structural model and disclose IN-DNA interactions relevant to target site selection.
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机译:逆转录病毒整合酶(IN)蛋白的靶位选择深刻影响病毒的发病机理。我们描述了莫洛尼鼠白血病病毒IN(M-MLV)C末端域(CTD)和催化核心域(CCD)的结构同源性模型的溶液核磁共振结构。在解决方案中,分离的MLV IN CTD采用SH3结构域折叠,其侧面为C末端非结构化尾巴。我们使用SWISS-MODEL,MMM树和I-TASSER生成了一致的MLV IN CCD结构模型。使用原型泡沫病毒IN目标捕获复合物的X射线晶体结构以及我们的MLV结构域结构,可以预测CCDα2螺旋区域和CTDβ1-β2环内的残基会结合目标DNA。通过点突变体和基序互换,在体内分析了这些残基的作用。测试了在IN CCDα2螺旋区域和CTDβ1-β2环处有取代的活病毒对整合靶位点选择的影响。下一代测序和对整合靶序列的分析表明,CCDα2螺旋区,特别是P187,与易裂键远端的序列相互作用,而CTDβ1-β2环则与近端残基结合。这些发现证实了我们的结构模型,并揭示了与靶位点选择有关的IN-DNA相互作用。
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