Detection of errors in dinucleotide repeat typing by nondenaturing electrophoresis
Detection of errors in dinucleotide repeat typing by nondenaturing electrophoresis
This study shows that consideration of minor bands (heteroduplex, shadow, and faint bands) associated with allele bands in nondenaturing polyacrylamide gel electrophoresis (PAGE) after polymerase chain reaction (PCR) is effective for detecting PCR processing errors that lead to mistyping of heterozygotes as homozygotes. Notably, we show that minor bands in native gels are highly effective for detecting allele dropout and preferential amplification in PCR amplification of dinucleotide repeats. These findings are based on an analysis of Mendelian inheritance patterns in families, and the reproduction of heterozygous band patterns by mixing homozygous DNAs before PCR, for a total of six (AC)n repeats located on human chromosome 11p15. To investigate the utility of our approach, a large population sample of 405 unrelated individuals was genotyped for each (AC)n repeat using minor bands as internal quality controls. Genotype frequencies at each of the six loci were in close agreement with Hardy-Weinberg proportions, which suggests that there were few genotyping errors. Our observations add to the evidence indicating that minor bands in native gels are of diagnostic value in the genotyping of dinucleotide repeats.
genotyping errors, dinucleotide repeats, preferential amplification, allele dropout, minor bands
2656-2664
Rodriguez, Santiago
f235ea2b-b6f3-45e4-9fc3-5a0383689ed6
Visedo, Guillermo
74f9772a-0a46-4be4-8fc8-f9f5aa3b7140
Zapata, Carlos
4669b20a-8bb8-47c8-b6b7-72d976c3f491
2001
Rodriguez, Santiago
f235ea2b-b6f3-45e4-9fc3-5a0383689ed6
Visedo, Guillermo
74f9772a-0a46-4be4-8fc8-f9f5aa3b7140
Zapata, Carlos
4669b20a-8bb8-47c8-b6b7-72d976c3f491
Abstract
This study shows that consideration of minor bands (heteroduplex, shadow, and faint bands) associated with allele bands in nondenaturing polyacrylamide gel electrophoresis (PAGE) after polymerase chain reaction (PCR) is effective for detecting PCR processing errors that lead to mistyping of heterozygotes as homozygotes. Notably, we show that minor bands in native gels are highly effective for detecting allele dropout and preferential amplification in PCR amplification of dinucleotide repeats. These findings are based on an analysis of Mendelian inheritance patterns in families, and the reproduction of heterozygous band patterns by mixing homozygous DNAs before PCR, for a total of six (AC)n repeats located on human chromosome 11p15. To investigate the utility of our approach, a large population sample of 405 unrelated individuals was genotyped for each (AC)n repeat using minor bands as internal quality controls. Genotype frequencies at each of the six loci were in close agreement with Hardy-Weinberg proportions, which suggests that there were few genotyping errors. Our observations add to the evidence indicating that minor bands in native gels are of diagnostic value in the genotyping of dinucleotide repeats.
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Published date: 2001
Keywords:
genotyping errors, dinucleotide repeats, preferential amplification, allele dropout, minor bands
Identifiers
Local EPrints ID: 24924
URI: http://eprints.soton.ac.uk/id/eprint/24924
ISSN: 0173-0835
PURE UUID: e662f699-2d7b-4d95-8566-8d5fe5b3ad15
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Date deposited: 05 Apr 2006
Last modified: 15 Mar 2024 06:59
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Contributors
Author:
Santiago Rodriguez
Author:
Guillermo Visedo
Author:
Carlos Zapata
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