Luoma G A, Burns P D, Bruce R E, Marshall A G
Biochemistry. 1980 Nov 11;19(23):5456-62. doi: 10.1021/bi00564a047.
The heat-induced melting of yeast 5S RNA and tRNAPhe has been monitored by UV, CD, and 360-MHz 1H NMR spectroscopy in order to determine the extent of base stacking and base pairing in the native and denatured structures. In the presence of Mg2+, the optical data indicate less than or equal to 40 base pairs in native yeast 5S RNA, a 60:40 ratio of GC to AU base pairs, with more single-stranded stacking and a slightly less stable structure (half-melted at 67 degrees C) than for tRNAPhe (half-melted at 71 degrees C). In the absence of Mg2+, the NMR results identify a minimum of approximately 32 base pairs at 25 degrees C (increasing to a minimum of approximately 35 base pairs in the presence of Mg2+), of which more than half are still intact at 48 degrees C. The native structure (25 degrees C) shows only minor dependence upon Mg2+ concentration, and no denatured forms could be detected. Finally, the present results support a previously proposed cloverleaf secondary structure for eukaryotic 5S RNA.
通过紫外光谱、圆二色光谱和360兆赫的1H核磁共振光谱监测了热诱导的酵母5S RNA和苯丙氨酸转运RNA(tRNAPhe)的解链过程,以确定天然结构和变性结构中碱基堆积和碱基配对的程度。在镁离子(Mg2+)存在的情况下,光学数据表明天然酵母5S RNA中碱基对数量小于或等于40个,GC碱基对与AU碱基对的比例为60:40,单链堆积更多,结构稳定性略低于苯丙氨酸转运RNA(tRNAPhe)(tRNAPhe在71℃时半解链,酵母5S RNA在67℃时半解链)。在没有镁离子的情况下,核磁共振结果表明在25℃时至少有大约32个碱基对(在镁离子存在时增加到至少大约35个碱基对),其中超过一半在48℃时仍然完整。天然结构(25℃)对镁离子浓度的依赖性很小,未检测到变性形式。最后,目前的结果支持了先前提出的真核生物5S RNA的三叶草二级结构。
