Stiege W, Atmadja J, Zobawa M, Brimacombe R
J Mol Biol. 1986 Sep 5;191(1):135-8. doi: 10.1016/0022-2836(86)90429-8.
"In vivo" cross-links were introduced into ribosomal RNA by direct ultraviolet irradiation of intact Escherichia coli cells, during growth in a 32P-labelled medium. Ribosomes were isolated from the irradiated cultures, dissociated into subunits and subjected to partial digestion with cobra venom nuclease. The intra-RNA cross-linked fragments were separated by two-dimensional gel electrophoresis and the sites of cross-linking determined, using our published methodology. A comparison with the data previously obtained by this procedure, after irradiation of isolated 30 S and 50 S subunits, showed that in the case of the 50 S subunit nine out of the ten previous cross-links in the 23 S RNA could be identified in the "in vivo" experiments, and correspondingly in the 30 S subunit five out of the six previous cross-links in the 16 S RNA were identified. Some new cross-links were found, as well as two cross-links in the 16 S RNA, which had hitherto only been observed after partial digestion of irradiated 30 S subunits with ribonuclease T1. The relevance of these data to the tertiary folding of the rRNA in situ is discussed, with particular reference to the work of other authors, in which "naked" RNA was used as the substrate for cross-linking and model-building studies.
在含有³²P标记培养基中生长的完整大肠杆菌细胞,通过直接紫外线照射引入“体内”交联到核糖体RNA中。从照射后的培养物中分离核糖体,解离成亚基,并用眼镜蛇毒核酸酶进行部分消化。RNA内交联片段通过二维凝胶电泳分离,并使用我们已发表的方法确定交联位点。将此程序在照射分离的30 S和50 S亚基后先前获得的数据进行比较,结果表明,对于50 S亚基,在“体内”实验中可以鉴定出23 S RNA中先前十个交联中的九个,相应地,对于30 S亚基,在16 S RNA中先前六个交联中的五个被鉴定出来。还发现了一些新的交联,以及16 S RNA中的两个交联,这两个交联迄今为止仅在照射后的30 S亚基用核糖核酸酶T1部分消化后才观察到。本文讨论了这些数据与原位rRNA三级折叠的相关性,特别参考了其他作者的工作,其中“裸露”RNA用作交联和模型构建研究的底物。
