Margraf Rebecca L, Mao Rong, Highsmith W Edward, Holtegaard Leonard M, Wittwer Carl T
Advanced Technology Group, ARUP Institute for Clinical and Experimental Pathology, 500 Chipeta Way, Salt Lake City, UT 84108, USA.
J Mol Diagn. 2007 Apr;9(2):184-96. doi: 10.2353/jmoldx.2007.060091.
Single bp mutations in the RET proto-oncogene can cause multiple endocrine neoplasia type 2 syndromes. The conventional approach for genotyping RET mutations is sequencing the exons. A closed-tube RET genotyping assay using a saturating DNA dye, unlabeled probes, and amplicon high-resolution melting analysis was developed. The method required two sequential polymerase chain reaction stages, a primary and secondary assay. The primary assay analyzed RET exons 10, 11, 13, 14, and 16 with a total of seven reactions using eight unlabeled probes. The primary assay genotyped wild-type exons, a common exon 13 polymorphism, and an exon 16 mutation, whereas other RET sequence variation was detected. The primary unlabeled probe data limited the possible genotypes for the detected RET sequence variation, which permitted genotyping in a secondary assay with only two to five reactions. Six probes were designed with the masking technique and masked selected sequence variations to allow unambiguous analysis of other mutations elsewhere under the probe. After this two-stage RET genotyping assay, less than 0.2% of exons tested would require sequencing for genotype. A blinded study generated from five wild type and 29 available RET sequence variation samples was 100% concordant with sequencing. Amplicon high-resolution melting analysis with unlabeled probes and the masking technique is a fast, accurate method for genotyping the >50 RET sequence variations.
RET原癌基因中的单碱基对突变可导致2型多发性内分泌肿瘤综合征。传统的RET突变基因分型方法是对各外显子进行测序。我们开发了一种使用饱和DNA染料、未标记探针和扩增子高分辨率熔解分析的闭管RET基因分型检测方法。该方法需要两个连续的聚合酶链反应阶段,即一次检测和二次检测。一次检测使用8个未标记探针,通过总共7个反应分析RET基因的第10、11、13、14和16外显子。一次检测对野生型外显子、常见的第13外显子多态性和第16外显子突变进行基因分型,同时检测其他RET序列变异。一次检测中未标记探针的数据限制了所检测到的RET序列变异的可能基因型,这使得在二次检测中仅通过两到五个反应就能进行基因分型。利用掩蔽技术设计了6个探针,对选定的序列变异进行掩蔽,以便对探针下其他位置的突变进行明确分析。经过这种两阶段的RET基因分型检测后,所检测外显子中需要进行测序以确定基因型的比例不到0.2%。一项对5个野生型样本和29个可用的RET序列变异样本进行的盲法研究与测序结果100%一致。使用未标记探针和掩蔽技术的扩增子高分辨率熔解分析是一种快速、准确的对50多种RET序列变异进行基因分型的方法。