Single-strand conformation polymorphism and heteroduplex analysis for gel-based mutation detection

Arun J. Nataraj; Isabelle Olivos-Glander; Noriko Kusukawa; W. Edward Highsmith

doi:10.1002/(SICI)1522-2683(19990101)20:6<1177::AID-ELPS1177>3.0.CO;2-2

Single-strand conformation polymorphism and heteroduplex analysis for gel-based mutation detection

Arun J. Nataraj, Isabelle Olivos-Glander, Noriko Kusukawa, W. Edward Highsmith

Laboratory Medicine and Pathology

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

206 Scopus citations

Abstract

Single-strand conformation polymorphism (SSCP) and heteroduplex analysis (HA) are popular electrophoretic methods for the identification of sequences. The principle reasons for the popularity of these two methods are their technical simplicity and their relatively high sensitivity for the detection of mutations. Here we review the theory and practice of SSCP and HA, including the factors contributing to the sensitivity of mutation detection. For SSCP analysis, these factors include: choice of gel matrix, electrophoretic conditions, presence of neutral additives, fragment size, and G+C content. For HA, the principle factors influencing sensitivity are the gel matrix and the identity of the base mismatch.

Original language	English (US)
Pages (from-to)	1177-1185
Number of pages	9
Journal	ELECTROPHORESIS
Volume	20
Issue number	6
DOIs	https://doi.org/10.1002/(SICI)1522-2683(19990101)20:6<1177::AID-ELPS1177>3.0.CO;2-2
State	Published - 1999

Keywords

Heteroduplex analysis
Mutation detection
Review
Single-strand conformation polymorphism

ASJC Scopus subject areas

Biochemistry
Clinical Biochemistry

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10.1002/(SICI)1522-2683(19990101)20:6<1177::AID-ELPS1177>3.0.CO;2-2

Cite this

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title = "Single-strand conformation polymorphism and heteroduplex analysis for gel-based mutation detection",

abstract = "Single-strand conformation polymorphism (SSCP) and heteroduplex analysis (HA) are popular electrophoretic methods for the identification of sequences. The principle reasons for the popularity of these two methods are their technical simplicity and their relatively high sensitivity for the detection of mutations. Here we review the theory and practice of SSCP and HA, including the factors contributing to the sensitivity of mutation detection. For SSCP analysis, these factors include: choice of gel matrix, electrophoretic conditions, presence of neutral additives, fragment size, and G+C content. For HA, the principle factors influencing sensitivity are the gel matrix and the identity of the base mismatch.",

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AU - Nataraj, Arun J.

AU - Olivos-Glander, Isabelle

AU - Kusukawa, Noriko

AU - Highsmith, W. Edward

PY - 1999

Y1 - 1999

N2 - Single-strand conformation polymorphism (SSCP) and heteroduplex analysis (HA) are popular electrophoretic methods for the identification of sequences. The principle reasons for the popularity of these two methods are their technical simplicity and their relatively high sensitivity for the detection of mutations. Here we review the theory and practice of SSCP and HA, including the factors contributing to the sensitivity of mutation detection. For SSCP analysis, these factors include: choice of gel matrix, electrophoretic conditions, presence of neutral additives, fragment size, and G+C content. For HA, the principle factors influencing sensitivity are the gel matrix and the identity of the base mismatch.

AB - Single-strand conformation polymorphism (SSCP) and heteroduplex analysis (HA) are popular electrophoretic methods for the identification of sequences. The principle reasons for the popularity of these two methods are their technical simplicity and their relatively high sensitivity for the detection of mutations. Here we review the theory and practice of SSCP and HA, including the factors contributing to the sensitivity of mutation detection. For SSCP analysis, these factors include: choice of gel matrix, electrophoretic conditions, presence of neutral additives, fragment size, and G+C content. For HA, the principle factors influencing sensitivity are the gel matrix and the identity of the base mismatch.

KW - Heteroduplex analysis

KW - Mutation detection

KW - Review

KW - Single-strand conformation polymorphism

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Single-strand conformation polymorphism and heteroduplex analysis for gel-based mutation detection

Abstract

Keywords

ASJC Scopus subject areas

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