Babon J J, McKenzie M, Cotton R G
Mutation Research Centre, St. Vincents Hospital, Fitzroy Vic, Australia.
Electrophoresis. 1999 Jun;20(6):1162-70. doi: 10.1002/(SICI)1522-2683(19990101)20:6<1162::AID-ELPS1162>3.0.CO;2-Y.
Mutation detection techniques are often limited by sensitivity, ease of use and short fragment lengths. Enzyme mismatch cleavage (EMC) is a technique capable of rapidly scanning 1 kbp fragments of DNA for mutations. It relies on the ability of a bacteriophage resolvase enzyme, T4 endonuclease VII, to cleave DNA at single base pair mismatches and small heteroduplex loops. Originally the process was performed using radioactively labeled DNA and the results analysed after denaturing polyacrylamide gel electrophoresis and autoradiography. However, access to systems capable of detecting fluorescent species migrating through a gel and the widespread availability of fluorescently tagged primers have greatly improved upon the original technique. A number of mutations were detected using fluorescent EMC and the results compared to performing the technique using radiolabeled DNA. Fluorescent EMC detected the presence, position and number of mutations in DNA fragments as large as 1 kbp. The fluorescent method was found to have advantages over the original method in its ease of use, increase in signal-to-noise ratio and the ability to multiplex samples by labeling DNA fragments with different fluorophores. This improvement on an already established method provides a sensitive, robust technique for mutation detection.
突变检测技术常常受到灵敏度、易用性和短片段长度的限制。酶切错配裂解(EMC)是一种能够快速扫描1千碱基对(kbp)的DNA片段以检测突变的技术。它依赖于一种噬菌体解离酶——T4内切核酸酶VII在单碱基对错配处和小的异源双链环处切割DNA的能力。最初,该过程使用放射性标记的DNA进行,结果在变性聚丙烯酰胺凝胶电泳和放射自显影后进行分析。然而,能够检测凝胶中迁移的荧光物质的系统的出现以及荧光标记引物的广泛可得性极大地改进了原始技术。使用荧光EMC检测了许多突变,并将结果与使用放射性标记DNA进行该技术的结果进行了比较。荧光EMC检测到了长达1 kbp的DNA片段中突变的存在、位置和数量。发现荧光方法在易用性、信噪比提高以及通过用不同荧光团标记DNA片段对样品进行多重分析的能力方面优于原始方法。对已建立方法的这种改进为突变检测提供了一种灵敏、可靠的技术。
