Extrachromosomal circular DNAs ranging in size from submicroscopic molecules of approximately 100 kb to cytogenetically resolvable structures of 1000+ kb called minute and double-minute chromosomes have been shown to harbor amplified genes in primary tumor cells, tumor cell lines, and drug-resistant cells grown in vitro. The presence of these molecules in transformed and malignant cells trends to reflect genetic instability and also suggests that role in tumor progression. Using a colon carcinoma cell line, we developed a technique to detect extrachromosomal circular DNA-specific sequences by Alu-polymerase chain reaction. Circular DNA was enriched by selective alkaline denaturation of genomic DNA. We have successfully performed this procedure with a minimum of 5 x 10(5) cells. The technique does not require any prior knowledge of the sequences located on the covalent circular DNA molecules for their detection. The procedure should be useful as a routine screen of primary tumor cells for the presence of extrachromosomal circular DNA and should permit the preparation of specific probes ot aid in their detailed characterizations.