用荧光替代放射性用于RNA的生化研究。
Substitution of the use of radioactivity by fluorescence for biochemical studies of RNA.
作者信息
Ying Bei-Wen, Fourmy Dominique, Yoshizawa Satoko
机构信息
Laboratoire de Chimie et Biologie Structurales, Gif-sur-Yvette, France.
出版信息
RNA. 2007 Nov;13(11):2042-50. doi: 10.1261/rna.637907. Epub 2007 Sep 11.
Abstract
We present here the use of fluorescent methodologies for structural and functional studies of RNA in place of radioactivity. The methods are highly sensitive and quantitative with the use of an infrared fluorescence imaging system. IRD-700 and IRD-800 labels are used for fluorescence detection. Chemical probing methods are largely used for mapping RNA secondary structure and to monitor ligand interactions and conformational changes involving individual bases of RNA. The new fluorescent primer extension methodology allows simple and fast chemical probing of RNA with high sensitivity. IRD-700 and IRD-800 labeled primers can also be used to monitor protein-RNA interactions by fluorescent mobility shift assays. The speed and ease of these approaches are advantages over prior methods that used hazardous radioisotopes. Structural and biochemical investigations of RNA should benefit from the use of these fluorescent methodologies.
摘要
我们在此介绍使用荧光方法替代放射性进行RNA的结构和功能研究。这些方法在使用红外荧光成像系统时具有高灵敏度和定量性。IRD - 700和IRD - 800标记用于荧光检测。化学探测方法主要用于绘制RNA二级结构图谱,监测配体相互作用以及涉及RNA单个碱基的构象变化。新的荧光引物延伸方法可实现对RNA的简单快速化学探测,且灵敏度高。IRD - 700和IRD - 800标记的引物还可用于通过荧光迁移率变动分析监测蛋白质 - RNA相互作用。这些方法的速度和简便性优于使用危险放射性同位素的先前方法。RNA的结构和生化研究应会受益于这些荧光方法的使用。
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