Abstract
Genotyping based on short tandem repeat (STR) regions is used in human identification and parentage testing, gene mapping studies, cancer diagnostics, and diagnosis of hereditary diseases. Analysis of STR systems using slab gel electrophoresis requires lengthy and labor-intensive procedures. Therefore, alternative methods such as capillary electrophoresis or ion-pair reversed-phase high-performance liquid chromatography (IPRP HPLC) have been used to analyze DNA. IPRP HPLC offers an attractive substitute to gel electrophoresis for STR analysis because of the reduced analysis time, and there is no need for the waste disposal associated with radioisotopic, enzyme-linked, or fluorescence detection systems. We evaluated the use of IPRP HPLC for the sizing and typing of STR alleles from the HUMTHO1 locus. The IPRP HPLC conditions (column temperature, flow rate, percent organic modifier per minute) were optimized for the separation of PCR products. Using the optimized separation conditions, the alleles of the HUMTHO1 system were sized in their native state (double standard) with the use of internal markers. The typing results correlated 100% to accepted methods of DNA typing. The analysis time for the HUMTHO1 locus was less than 14 min, and the alleles could be peak captured for further examination following such as sequencing.
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