Up to now, ovarian carcinomas represent a major health problem among female cancers because they are the leading cause of death from gynecological malignancy. A high proportion of these tumors selects for mutations in the p53 gene. There is evidence that inactivation of the p53 protein could indicate poor prognosis and chemoresistance of patients. To set up a fast and sensitive test for p53 defects in tumor tissues, we analyzed ovarian cancer cells by denaturing high-performance liquid chromatography (DHPLC). A primer set spanning the whole coding region of p53 with seven fragments was designed and appropriate heteroduplex detection in DHPLC analysis was elaborated. The analysis of 45 ovarian tumor specimens yielded 17 genetic alterations (38%) occurring exclusively in the malignant tissue of the patients. In addition, frequent polymorphisms present in normal compared to tumor tissue could serve as a tool for the rapid identification of loss of heterozygosity (LOH) in the tumor. We observed that LOH in intron 2 or 3 correlated well with a lack of one allele in mutated fragments. In conclusion, DHPLC screening appears to be a sensitive and effective test for genetic alterations in tumors with p53 involvement. Since p53 mutations point to a poor prognosis state in several cancers, a fast screening of tumor material for genetic variations may have implications for further individual treatment of patients.