Arnez J G, Steitz T A
Department of Molecular Biophysics and Biochemistry, Yale University, New Haven, Connecticut 06511.
Biochemistry. 1994 Jun 21;33(24):7560-7. doi: 10.1021/bi00190a008.
tRNA(2Gln) made in vitro by transcription with T7 RNA polymerase does not contain the pseudouridines at positions 38, 39, and 55, the 4-thiouridine at position 8, or any of the methylated bases found in the tRNA(2Gln) made in vivo. Cocrystals of unmodified tRNA(2Gln) complexed with glutaminyl-tRNA synthetase from Escherichia coli are isomorphous with those of the complex with modified tRNA(2Gln). A difference electron density map between the complexes with modified and unmodified tRNAs calculated at 2.5-A resolution shows no differences in the protein or tRNA structures, except for some very small shifts in atoms contacting the thiol at the 4 position of uridine 8 that are required to accommodate the smaller oxygen in the unmodified tRNA. Perhaps the most functionally significant change in the unmodified tRNA is the absence of the specifically bound water molecules that are observed to cross-link the N5 of the pseudo-uridines to their 5' phosphate. This suggests a possible role for pseudouridinylation in stabilization of the tRNA through water-mediated linking of these modified bases to the backbone, which is consistent with the lower thermal stability of the unmodified tRNA. An identical water-bridging structure is possible at four of the five other psuedo-uridines in known tRNA structures.
通过T7 RNA聚合酶体外转录制备的tRNA(2Gln)在38、39和55位不含假尿苷,在8位不含4-硫尿苷,也不含体内制备的tRNA(2Gln)中发现的任何甲基化碱基。未修饰的tRNA(2Gln)与来自大肠杆菌的谷氨酰胺-tRNA合成酶的共晶体与修饰的tRNA(2Gln)的共晶体同晶型。在2.5埃分辨率下计算的修饰和未修饰tRNA复合物之间的差异电子密度图显示,蛋白质或tRNA结构没有差异,除了与尿苷8第4位硫醇接触的原子有一些非常小的位移,这是为了适应未修饰tRNA中较小的氧。未修饰tRNA中最具功能意义的变化可能是没有观察到将假尿苷的N5与它们的5'磷酸交联的特异性结合水分子。这表明假尿苷化在通过水介导的这些修饰碱基与主链的连接来稳定tRNA方面可能起作用,这与未修饰tRNA较低的热稳定性一致。在已知tRNA结构的其他五个假尿苷中的四个中,相同的水桥结构也是可能的。