The influence of fragmentation of analyzed DNA amplicon on the efficacy of specific sequence detection by means of heterophase hybridization analysis was investigated. The detection of DNA sequence was carried out colorimetrically after introduction of biotin label into the oligonucleotide probe immobilized on a solid support upon its limited elongation in the complex with the analyzed DNA using Taq polymerase. Two simple and reproducible approaches to DNA analyte fragmentation were suggested. They are based on the formation apurinic/apyrimidinic sites in DNA followed by their degradation upon the thermal treatment. Apurinization of DNA was achieved with a mild acidic treatment. The apyrimidinic sites were formed when DNA fragment containing dTMP and dUMP residues in various ratios was treated with uracil-DNA-glycosylase (UDG). DNA analytes pretreated by one of these approaches can be used without additional purification for hybridization analysis of DNA with the use of Taq polymerase. The efficacy of hybridization analysis is shown to be higher in the case of the fragmented DNA in comparison with the native DNA amplicon. The use of fragmented DNA analytes allows utilizing bridged oligonucleotides as highly selective probes with reduced hybridization properties.