Khan Mateen A, Yumak Hasan, Gallie Daniel R, Goss Dixie J
Department of Chemistry, Hunter College and the Graduate Center of the City University of New York, New York, NY 10065, USA.
Biochim Biophys Acta. 2008 Oct;1779(10):622-7. doi: 10.1016/j.bbagrm.2008.07.004. Epub 2008 Jul 21.
In wheat germ, the interaction between poly(A)-binding protein and eukaryotic initiation factor eIF 4G increases the affinity of eIF4E for the cap by 20-40-fold. Recent findings that wheat germ eIF4G is required for interaction with the IRES, pseudoknot 1 (PK1), of tobacco etch virus to promote cap-independent translation led us to investigate the effects of PABP on the interaction of eIF4F with PK1. The fluorescence anisotropy data showed addition of PABP to eIF4F increased the binding affinity approximately 2.0-fold for PK1 RNA as compared with eIF4F alone. Addition of both PABP and eIF4B to eIF4F enhance binding affinity to PK1 about 4-fold, showing an additive effect rather than the large increase in affinity shown for cap binding. The van't Hoff analyses showed that PK1 RNA binding to eIF4F, eIF4F.PABP, eIF4F.4B and eIF4F.4B.PABP is enthalpy-driven and entropy-favorable. PABP and eIF4B decreased the entropic contribution 65% for binding of PK1 RNA to eIF4F. The lowering of entropy for the formation of eIF4F.4B.PABP-PK1 complex suggested reduced hydrophobic interactions for complex formation. Overall, these results demonstrate the first direct effect of PABP on the interaction of eIF4F and eIF4F.4B with PK1 RNA.
在小麦胚芽中,聚腺苷酸结合蛋白(poly(A)-binding protein)与真核起始因子eIF 4G之间的相互作用使eIF4E与帽结构的亲和力提高了20至40倍。最近有研究发现,小麦胚芽eIF4G与烟草蚀纹病毒的内部核糖体进入位点(IRES)假结1(PK1)相互作用以促进不依赖帽结构的翻译是必需的,这促使我们研究聚腺苷酸结合蛋白(PABP)对eIF4F与PK1相互作用的影响。荧光各向异性数据显示,与单独的eIF4F相比,向eIF4F中添加PABP可使PK1 RNA的结合亲和力提高约2.0倍。向eIF4F中同时添加PABP和eIF4B可使与PK1的结合亲和力提高约4倍,显示出相加效应,而非像与帽结构结合那样亲和力大幅增加。范特霍夫分析表明,PK1 RNA与eIF4F、eIF4F.PABP、eIF4F.4B和eIF4F.4B.PABP的结合是由焓驱动且熵有利的。PABP和eIF4B使PK1 RNA与eIF4F结合时的熵贡献降低了65%。eIF4F.4B.PABP-PK1复合物形成时熵的降低表明复合物形成过程中疏水相互作用减少。总体而言,这些结果证明了PABP对eIF4F和eIF4F.4B与PK1 RNA相互作用的首个直接影响。
