Youngman Elaine M, Green Rachel
Howard Hughes Medical Institute, Department of Molecular Biology and Genetics, Johns Hopkins University School of Medicine, Baltimore, MD 21205, USA.
Methods. 2005 Jul;36(3):305-12. doi: 10.1016/j.ymeth.2005.04.007.
As it has become increasingly clear that the RNA components of the ribosome are central to its function, the in vitro analysis of mutations in the ribosomal RNAs has become an important tool for understanding the molecular details of ribosome function. However, the frequent dominant lethal phenotypes of mutations at interesting rRNA residues has long presented a hurdle to this analysis, as their lethality has rendered it impossible to generate pure populations of in vivo-derived ribosomes for study. We present here the details of a method for affinity purification of ribosomes bearing any mutation in the 16S or 23S rRNA and demonstrate that ribosomes purified using this technology are highly active in the several steps of translation we have examined.
由于越来越清楚核糖体的RNA组分对其功能至关重要,对核糖体RNA中突变的体外分析已成为理解核糖体功能分子细节的重要工具。然而,有趣的rRNA残基处突变频繁出现的显性致死表型长期以来一直是这种分析的障碍,因为它们的致死性使得无法产生用于研究的体内来源核糖体的纯群体。我们在此展示了一种亲和纯化在16S或23S rRNA中带有任何突变的核糖体的方法的细节,并证明使用该技术纯化的核糖体在我们所检测的翻译的几个步骤中具有高度活性。