Characteristics of two cell lines derived from a histologically undifferentiated bronchial carcinoma expressing neuroendocrine markers

Evidence suggests that up to 25% of p53 mutations are outside of exons 5-8 and that insertions, deletions, and polymorphic sites in the p53 gene may play a significant role in the process of carcinogenesis. A novel polymerase chain reaction (PCR) approach for the analysis of the entire p53 coding and splice site regions from microdissected, formalin-fixed, paraffin-embedded tumor tissues has been developed which allows multiple genetic analyses to be performed from one primary amplification reaction. The method was initially evaluated using well-characterized cell lines. In addition to confirming the published p53 mutations for HT29, Molt 4, A431, and HN5, a 16 base pair (bp) duplication within intron 3 was detected in both the A431 and HT29 cell lines. Analysis of archival samples of ovarian cancer identified the same 16-bp duplication and coding region variations. In all samples, using GenBank submission U94788 as a reference, a C-insertion was detected at nucleotide positions 11818 and 11874 within intron 2. At nucleotide position 14168, within intron 7, a T-to-G base change was found. This novel PCR approach has the potential to reduce the amount of clinical material required by up to 95%, thus facilitating retrospective studies on archival tumor collections. Furthermore, a wider analysis of the p53 gene, including splice sites and intronic regions, may yield additional information regarding cancer predisposition, response to therapy, and progression.

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Novel Polymerase Chain Reaction Approach for Full-Coding p53 Mutation Detection in Microdissected Archival Tumors

Thompson-Hehir

Davies²,

Green³

et al. 2000

Diagnostic Molecular Pathology

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Characteristics of two cell lines derived from a histologically undifferentiated bronchial carcinoma expressing neuroendocrine markers

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Novel Polymerase Chain Reaction Approach for Full-Coding p53 Mutation Detection in Microdissected Archival Tumors

Novel Polymerase Chain Reaction Approach for Full-Coding p53 Mutation Detection in Microdissected Archival Tumors

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