Bass B L, Cech T R
Biochemistry. 1986 Aug 12;25(16):4473-7. doi: 10.1021/bi00364a001.
The intervening sequence (IVS) of the Tetrahymena rRNA precursor catalyzes its own splicing. During splicing the 3'-hydroxyl of guanosine is ligated to the 5' terminus of the IVS. One catalytic strategy of the IVS RNA is to specifically bind its guanosine substrate. Deoxyguanosine (dG) and dideoxyguanosine (ddG) are found to be competitive inhibitors of self-splicing. Comparison of the kinetic parameters (Ki = 1.1 mM for dG; Ki = 5.4 mM for ddG; Km = 0.032 mM for guanosine) indicates that the ribose hydroxyls are necessary for optimal binding of guanosine to the RNA. dG is not a substrate for the reaction even at very high concentrations. Thus, in addition to aiding in binding, the 2'-hydroxyl is necessary for reaction of the 3'-hydroxyl. A second catalytic strategy of the IVS RNA is to enhance the reactivity of specific bonds. For example, the phosphodiester bond at the 3' splice site is extremely labile to hydrolysis. We find that dG and ddG, as well as 2'-O-methylguanosine and 3'-O-methylguanosine, reduce hydrolysis at the 3' splice site. These data are consistent with an RNA structure that brings the 5' and 3' splice sites proximal to the guanosine binding site.
嗜热四膜虫核糖体RNA前体的间隔序列(IVS)催化自身剪接。在剪接过程中,鸟苷的3'-羟基与IVS的5'末端连接。IVS RNA的一种催化策略是特异性结合其鸟苷底物。发现脱氧鸟苷(dG)和双脱氧鸟苷(ddG)是自我剪接的竞争性抑制剂。动力学参数的比较(dG的Ki = 1.1 mM;ddG的Ki = 5.4 mM;鸟苷的Km = 0.032 mM)表明,核糖羟基对于鸟苷与RNA的最佳结合是必需的。即使在非常高的浓度下,dG也不是该反应的底物。因此,除了有助于结合外,2'-羟基对于3'-羟基的反应也是必需的。IVS RNA的第二种催化策略是增强特定键的反应性。例如,3'剪接位点处的磷酸二酯键对水解极其不稳定。我们发现dG和ddG,以及2'-O-甲基鸟苷和3'-O-甲基鸟苷,都能减少3'剪接位点处的水解。这些数据与一种RNA结构一致,该结构使5'和3'剪接位点靠近鸟苷结合位点。
