High-Throughput SNP Genotyping by Allele-Specific PCR with Universal Energy-Transfer-Labeled Primers | Zendy

Maxim V. Myakishev | Zendy; Yuri Khripin | Zendy; Stella Hu | Zendy; Dean H. Hamer | Zendy

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High-Throughput SNP Genotyping by Allele-Specific PCR with Universal Energy-Transfer-Labeled Primers

Author(s) -

Maxim V. Myakishev,

Yuri Khripin,

Stella Hu,

Dean H. Hamer

Publication year - 2001

Publication title -

genome research

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 9.556

H-Index - 297

eISSN - 1549-5469

pISSN - 1088-9051

DOI - 10.1101/gr.157901

Subject(s) - genotyping , biology , snp genotyping , molecular inversion probe , single nucleotide polymorphism , genetics , variants of pcr , snp , polymerase chain reaction , genomic dna , allele , genotype , computational biology , microbiology and biotechnology , gene

We have developed a new method for high-throughput genotyping of single nucleotide polymorphisms (SNPs). The technique involves PCR amplification of genomic DNA with two tailed allele-specific primers that introduce priming sites for universal energy-transfer-labeled primers. The output of red and green light is conveniently scored using a fluorescence plate reader. The new method, which was validated on nine model SNPs, is well suited for high-throughput, automated genotyping because it requires only one reaction per SNP, it is performed in a single tube with no post-PCR handling, the same energy-transfer-labeled primers are used for all analyses, and the instrumentation is inexpensive. Possible applications include multiple-candidate gene analysis, genomewide scans, and medical diagnostics.

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