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PUBLICATIONS

Detection of p53 Gene Mutation: Analysis by Single-Strand Conformation Polymorphism and Cleavase Fragment Length Polymorphism

Published

Author(s)

C D. O'Connell, Donald H. Atha, M C. Oldenburg, J Tian, M Siebert, D Handrow, K Grooms, L Heisler, M de Arruda

Abstract

We have generated a collection of clones containing single point mutations within the exon 5-9 hot spot regions of the p53 gene by using polymerase chain reaction (PCR) to amplify select regions of the gene from characterized cell lines. These clones were then used to address the sensitivity of mutation detection using slab-gel single-strand conformation polymorphism (SSCP) and Cleavase fragment length polymorphism (CFLP) assay systems. Both methods exhibited high sensitivities for the detection of mutations in cloned p53 mutations in this study: 97% for CFLP and 94% for SSCP. In addition to resulting in higher sensitivity of mutation detection, CFLP has the capability to analyze longer fragments. In this study, CFLP identified five intronic mutations which were not investigated in the exon-specific SSCP assay. These results agree with those found elsewhere and demonstrate that CFLP scanning can have practical advantages when used for the identification of sequence alterations within the p53 gene.
Citation
Electrophoresis
Volume
20
Issue
6
Pub Type
Journals

Keywords

CFLP, DNA standards, P53 mutation detection, single-strand conformation polymorphism, slab gel electrophoresis, SSCP
Bioscience

Citation

O'Connell, C. , Atha, D. , Oldenburg, M. , Tian, J. , Siebert, M. , Handrow, D. , Grooms, K. , Heisler, L. and de Arruda, M. (1999), Detection of p53 Gene Mutation: Analysis by Single-Strand Conformation Polymorphism and Cleavase Fragment Length Polymorphism, Electrophoresis (Accessed October 8, 2025)

Issues

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Created May 31, 1999, Updated October 12, 2021
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