Résumé : The c-Abl tyrosine kinase protein is implicated in the signaling pathway as well as in transcription, DNA repair, apoptosis, and several other vital biological processes essential for cell proliferation or differentiation. The interaction of c-Abl with DNA is important for some of these functions, but the exact nature of this interaction is still a matter of controversy. The present study addresses the DNA-binding properties of the human c-Abl protein. Using CASTing experiments, the consensus binding site 5'- A(A/C)AACAA(A/C) was determined. The central highly conserved AAC triplet appears to constitute the crucial core element in the binding sequences of the c-Abl protein. The c-Abl DNA-binding domain recognizes specific sequences and interacts with deformed DNA structures such as four-way junctions and bubble DNA containing a large single-stranded loop, as determined by electromobility shift assay, melting temperature studies, and binding to specific oligonucleotides covalently linked to beads. Additional competition experiments suggest that the interaction mainly involves contacts within the minor groove of the double helix. The DNA-binding properties of c-Abl are reminiscent of those of high-mobility group (HMG)-like proteins such as LEF- 1 and SRY. However, the circular permutation and ring closure assays and DNA Unwinding experiments reveal that, unlike HMGs, c-Abl does not bend its target sequence. In addition, it is shown that the protein potentiates the DNA relaxation activity of topoisomerase I. These findings indicate that the interaction of c-Abl with DNA is both sequence-selective and structure- dependent.