Apparent human BRCA1 knockout caused by mispriming during polymerase chain reaction: Implications for genetic testing

Bettina Kuschel; Simon A. Gayther; Douglas F. Easton; Bruce A.J. Ponder; Paul D.P. Pharoah

doi:10.1002/gcc.1122

Apparent human BRCA1 knockout caused by mispriming during polymerase chain reaction: Implications for genetic testing

Bettina Kuschel, Simon A. Gayther, Douglas F. Easton, Bruce A.J. Ponder, Paul D.P. Pharoah

Strangeways Research Laboratory

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

We report an apparent BRCA1 homozygous knockout that, on further analysis, was found to be an artefact of the polymerase chain reaction. This finding has two important implications. First, it challenges results of a previous study that reported a homozygous knockout associated with the same BRCA1 mutation. Second, our findings suggest that mispriming caused by mismatched primers at the site of single-nucleotide polymorphisms, leading to preferential amplification of one allele, may represent a significant proportion of instances of mutation-detection insensitivity. This may have major implications for the sensitivity of all polymerase chain reaction-based mutation-detection methods in clinical genetic testing laboratories.

Original language	English
Pages (from-to)	96-98
Number of pages	3
Journal	Genes Chromosomes and Cancer
Volume	31
Issue number	1
DOIs	https://doi.org/10.1002/gcc.1122
State	Published - 2001
Externally published	Yes

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10.1002/gcc.1122

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abstract = "We report an apparent BRCA1 homozygous knockout that, on further analysis, was found to be an artefact of the polymerase chain reaction. This finding has two important implications. First, it challenges results of a previous study that reported a homozygous knockout associated with the same BRCA1 mutation. Second, our findings suggest that mispriming caused by mismatched primers at the site of single-nucleotide polymorphisms, leading to preferential amplification of one allele, may represent a significant proportion of instances of mutation-detection insensitivity. This may have major implications for the sensitivity of all polymerase chain reaction-based mutation-detection methods in clinical genetic testing laboratories.",

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T2 - Implications for genetic testing

AU - Kuschel, Bettina

AU - Gayther, Simon A.

AU - Easton, Douglas F.

AU - Ponder, Bruce A.J.

AU - Pharoah, Paul D.P.

PY - 2001

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N2 - We report an apparent BRCA1 homozygous knockout that, on further analysis, was found to be an artefact of the polymerase chain reaction. This finding has two important implications. First, it challenges results of a previous study that reported a homozygous knockout associated with the same BRCA1 mutation. Second, our findings suggest that mispriming caused by mismatched primers at the site of single-nucleotide polymorphisms, leading to preferential amplification of one allele, may represent a significant proportion of instances of mutation-detection insensitivity. This may have major implications for the sensitivity of all polymerase chain reaction-based mutation-detection methods in clinical genetic testing laboratories.

AB - We report an apparent BRCA1 homozygous knockout that, on further analysis, was found to be an artefact of the polymerase chain reaction. This finding has two important implications. First, it challenges results of a previous study that reported a homozygous knockout associated with the same BRCA1 mutation. Second, our findings suggest that mispriming caused by mismatched primers at the site of single-nucleotide polymorphisms, leading to preferential amplification of one allele, may represent a significant proportion of instances of mutation-detection insensitivity. This may have major implications for the sensitivity of all polymerase chain reaction-based mutation-detection methods in clinical genetic testing laboratories.

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JO - Genes Chromosomes and Cancer

JF - Genes Chromosomes and Cancer

IS - 1

ER -

Apparent human BRCA1 knockout caused by mispriming during polymerase chain reaction: Implications for genetic testing

Abstract

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