Development of a Fast DNA-DNA Hybridization Method Based on Melting Profiles in Microplates

DNA-DNA hybridization is still the “gold standard” for the genotypic delineation of bacterial species. However, it is not widely used because traditional DNA-DNA hybridization techniques are rather time-consuming and not easy to perform in routine laboratories. In the present study, DNA of reference strains was digested with Sau3A, ligated with linker oligonucleotides S1/2 and in vitro amplified. The amplified DNA fragments were immobilized on MaxiSorb 96-well plates. DNA isolated from target strains was also digested with Sau3A, ligated with linker oligonuleotides P1/2 and in vitro amplified in the presence of digoxygenin modified dUTP. The labeled amplificate was hybridized to the immobilized reference DNA under isothermal conditions. Thermal denaturation curves of the DNA-DNA hybrids were obtained by using washing solutions of increasing stringency. Remaining hybrids were colorimetrically detected with anti-digoxygenin-horseradish peroxidase anti-bodies. The new method was validated with strains of the genus Pedioccocus for which DNA-DNA similarities have also been determined by the filter hybridization method. In addition, DNA-DNA hybridizations were performed with genotypically defined Enterobacter species.