High-Throughput Screening for Known Mutations by Automated Analysis of Single Sequencing Reactions | Zendy

Tom Kristensen | Zendy; Vessela N. Kristensen | Zendy; Anne-Lise B√∏rresen-Dale | Zendy

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High-Throughput Screening for Known Mutations by Automated Analysis of Single Sequencing Reactions

Author(s) -

Tom Kristensen,

Vessela N. Kristensen,

Anne-Lise B√∏rresen-Dale

Publication year - 1998

Publication title -

biotechniques

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.617

H-Index - 131

eISSN - 1940-9818

pISSN - 0736-6205

DOI - 10.2144/98245dt04

Subject(s) - throughput , computational biology , dna sequencing , genetics , high throughput screening , mutation , biology , dna , computer science , gene , telecommunications , wireless

This work shows that single sequencing reactions analyzed on an automated DNA sequencer can be an efficient way of screening PCR products for known mutations. We have analyzed a mutation in exon 10 of the human aromatase gene and show that an unambiguous genotype could be elucidated in more than 90% of the analyzed samples. Compared to analysis by full sequencing, 4 times more samples can be analyzed per gel, so that the sample capacity of the gel is approaching that of alternative gel-based methods for genotype analysis. Unlike many of these, the method offers direct identification of the variant sequence position and on-line analysis without the need of post-electrophoretic processing of the gel.

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