Enzymatic mutation detection. Phosphate ions increase incision efficiency of endonuclease VII at a variety of damage sites in DNA

Mutation Research/Mutation Research Genomics Pub Date : 1998-05-01 DOI:10.1016/S1383-5726(97)00011-3

Stefan Golz, Beate Greger, Börries Kemper

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引用次数: 12

Abstract

The ability of endonuclease VII (endo VII) to cleave at mispairings in double-stranded DNA has recently been used for enzymatic mutation detection (EMD) [R. Youil, B.W. Kemper, R.G.H. Cotton, Proc. Natl. Acad. Sci. USA 92 (1995) 87–91]. The method is based on mapping cleavages in heteroduplex DNAs obtained from mutant and wildtype sequences. Despite the capability of endo VII to cleave at all possible mispairings, relative cleavage efficiencies vary considerably for individual mismatches and may escape detection if located in an unfavorable sequence surrounding. We report here improved reaction conditions which can increase the selectivity of the enzyme for mismatches up to 500-fold, as demonstrated with a mutation in a 247 nt long fragment from exon 7 of human gene p53. The new conditions involve replacement of Tris/HCl buffer by phosphate buffer and change from pH 8.0 to 6.5. Various concentrations of phosphate ions should be tried in the assay to meet individual requirements of the substrate.

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酶突变检测。磷酸盐离子增加了内切酶VII在DNA中多种损伤部位的切割效率

内切酶VII (endo VII)在双链DNA错配对处的切割能力最近被用于酶突变检测(EMD) [R]。Youil, B.W. Kemper, R.G.H. Cotton, Proc. Natl。学会科学。美国92(1995)87-91]。该方法基于从突变型和野生型序列中获得的异双工dna的切割图谱。尽管endo VII能够在所有可能的错配中进行切割，但对于单个错配的相对切割效率差异很大，如果位于不利的序列环境中，可能会逃避检测。我们在这里报道了改进的反应条件，可以将酶对错配的选择性提高500倍，正如人类p53基因7外显子247nt长片段突变所证明的那样。新条件包括将Tris/HCl缓冲液替换为磷酸盐缓冲液，并将pH从8.0更改为6.5。应在测定中尝试不同浓度的磷酸盐离子，以满足底物的个别要求。

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Mutation Research/Mutation Research Genomics

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