在突变检测中使用核酸内切酶T4内切核酸酶VII和T7内切核酸酶I。

The use of resolvases T4 endonuclease VII and T7 endonuclease I in mutation detection.

作者信息

Babon J J, McKenzie M, Cotton R G H

机构信息

National Institute Medical Research, Mill Hill, London NW7 1AA, UK.

出版信息

Mol Biotechnol. 2003 Jan;23(1):73-81. doi: 10.1385/MB:23:1:73.

DOI:10.1385/MB:23:1:73

PMID:12611271

Abstract

Mutation and polymorphism detection is of increasing importance in the field of molecular genetics. This is reflected by the plethora of chemical, enzymatic, and physically based methods of mutation detection. The ideal method would detect mutations in large fragments of DNA and position them to single base-pair (bp) accuracy. Few methods are able to quickly screen kilobase lengths of DNA and position the mutation at the same time. The Enzyme Mismatch Cleavage (EMC) method of mutation detection is able to reliably detect nearly 100% of mutations in DNA fragments as large as 2 kb and position them to within 6 bp. This method exploits the activity of a resolvase enzyme from T4, T4 endonuclease VII, and, more recently, a second bacteriophage resolvase, T7 endonuclease I. The technique uses these enzymes to digest heteroduplex DNA formed by annealing wild-type and mutant DNA. Digestion fragments indicate the presence, and the position, of any mutations. The method is robust and reliable and much faster and cheaper than sequencing. These attributes have resulted in its increasing use in the field of mutation detection.

摘要

在分子遗传学领域，突变和多态性检测的重要性日益凸显。这体现在大量基于化学、酶促和物理方法的突变检测技术上。理想的方法应能检测大片段DNA中的突变，并将其定位到单碱基对（bp）的精度。很少有方法能够快速筛选数千碱基长度的DNA并同时定位突变。酶错配切割（EMC）突变检测方法能够可靠地检测出长达2 kb的DNA片段中近100%的突变，并将其定位在6 bp范围内。该方法利用了来自T4的解离酶T4内切核酸酶VII的活性，以及最近发现的第二种噬菌体解离酶T7内切核酸酶I的活性。该技术使用这些酶消化由野生型和突变型DNA退火形成的异源双链DNA。消化片段表明是否存在任何突变及其位置。该方法稳健可靠，比测序更快、更便宜。这些特性使其在突变检测领域的应用越来越广泛。

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在突变检测中使用核酸内切酶T4内切核酸酶VII和T7内切核酸酶I。

The use of resolvases T4 endonuclease VII and T7 endonuclease I in mutation detection.

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