Restriction fragment analysis as a source of error in detection of heteroplasmic mtDNA mutations

Saara Finnilä , Ilmo E Hassinen , Kari Majamaa
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引用次数: 15

Abstract

The transition from A to G at nt 5656 (5656A→G) in mitochondrial DNA has been suggested to be a pathogenic mutation and, furthermore, a heteroplasmic one. We found that the mutation was present in 14 out of 83 healthy controls from northern Finland and that 5656A→G was exclusively associated with mtDNA haplogroup U. Interestingly, 5656A→G appeared to be heteroplasmic in NheI digestion of PCR fragments that were amplified by using a mismatched oligonucleotide primer creating a digestion site in the presence of the mutant variant. However, we did not detect the wild type genome in clones from such a sample and subsequent experiments revealed that the apparent heteroplasmy was due to inhibition of NheI by NaCl. Our results suggest that 5656A→G is a polymorphism and it may be highly characteristic for Finns. Furthermore, new heteroplasmic mutations identified by restriction fragment analysis should be adequately controlled for any false positive results that may be due to incomplete digestion.

限制性内切片段分析是检测异质mtDNA突变的错误来源
线粒体DNA中从A到G的转变(5656A→G)被认为是一种致病突变,而且是一种异质突变。我们发现,来自芬兰北部的83名健康对照中有14人存在该突变,并且5656A→G仅与mtDNA单倍群u相关。有趣的是,在NheI消化PCR片段时,5656A→G似乎是异质的,这些片段是通过使用不匹配的寡核苷酸引物扩增的,在突变变体存在的情况下产生了一个消化位点。然而,我们没有在这样一个样本的克隆中检测到野生型基因组,随后的实验表明,明显的异质性是由于NaCl对NheI的抑制。我们的研究结果表明,5656A→G是一种多态性,它可能是芬兰人的高度特征。此外,通过限制性内切片段分析鉴定出的新异质突变应得到充分控制,以防止可能由于消化不完全而导致的假阳性结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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