Scanning copy number and gene expression on the 16p13.3‐13.2 chromosomal region by the systematic multiplex polymerase chain reaction and reverse transcription‐polymerase chain reaction methods

We developed the systematic multiplex reverse transcription‐PCR (SM RT‐PCR) method that is distinguishable from other multiplex RT‐PCR methods by optimized PCR conditions allowing amplification of sequences that fall within a single exon of genes of similar band intensity using genomic DNA template as a calibration standard. Using an SM RT‐PCR system of proto‐oncogenes and tumor suppressor genes, we previously showed that the SM RT‐PCR system, which was developed for cDNA expression analysis, could also be used for a more exquisite analysis of copy number changes in genomic DNA. Here we report that the SM PCR method semiquantitatively detected less than a two‐fold difference in copy number. Furthermore, we also report the results of subchromosomal scanning of copy number and expression using the SM PCR and SM RT‐PCR methods. We identified and characterized the novel homozygous deletion that spans over 12‐plus genes on 16p13.3‐13.2 in the MDA‐MB‐468 breast cancer cell line.