通过缺失诱变探索5S RNA上的L18结合位点。

Gewirth D T, Moore P B

Department of Molecular Biophysics, Yale University, New Haven, CT 06511.

Nucleic Acids Res. 1988 Nov 25;16(22):10717-32. doi: 10.1093/nar/16.22.10717.

Several deletion variants of E. coli 5S RNA have been constructed and produced either in vivo or in vitro using T7 RNA Polymerase. Their structures and ribosomal protein L18 binding properties have been examined. All of them are similar to wild-type 5S RNA in their helix II-III regions, where L18 binds [Huber, P.W. and Wool, I.G. (1984) Proc. Natl. Acad. Sci. (USA) 81, 322-326; Douthwaite, S., Christensen, A., and Garrett, R.A. (1982) Biochemistry 21, 2313-2320.], by NMR criteria. However, none of the molecules examined that lack the helix IV-helix V stem bind L18 efficiently, even though that portion of 5S RNA is outside the L18 footprint. The L18 binding site is clearly more than a simple hairpin loop.

已经构建了几种大肠杆菌5S RNA的缺失变体，并使用T7 RNA聚合酶在体内或体外产生。已经检查了它们的结构和核糖体蛋白L18结合特性。根据核磁共振标准，它们在L18结合的螺旋II-III区域均与野生型5S RNA相似[休伯，P.W.和伍尔，I.G.（1984年）《美国国家科学院院刊》81卷，322 - 326页；杜思韦特，S.，克里斯蒂安森，A.和加勒特，R.A.（1982年）《生物化学》21卷，2313 - 2320页]。然而，所检测的缺乏螺旋IV - 螺旋V茎的分子中，没有一个能有效地结合L18，尽管5S RNA的该部分在L18足迹之外。L18结合位点显然不仅仅是一个简单的发夹环。