Sequence-specific recognition, photocrosslinking and cleavage of the DNA double helix by an oligo-[alpha]-thymidylate covalently linked to an azidoproflavine derivative. |
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Authors: | T Le Doan, L Perrouault, D Praseuth, N Habhoub, J L Decout, N T Thuong, J Lhomme, C H l ne |
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Affiliation: | Laboratoire de Biophysique, INSERM U. 201, CNRS UA. 481, Muséum National d'Histoire Naturelle, Paris, France. |
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Abstract: | A 3-azidoproflavine derivative was covalently linked to the 5'-end of an octathymidylate synthesized with the [alpha]-anomers of the nucleoside. Two target nucleic acids were used for this substituted oligo-[alpha]-thymidylate: a 27-mer single-stranded DNA fragment containing an octadeoxyadenylate sequence and a 27-mer duplex containing eight contiguous A.T base pairs with all adenines on the same strand. Upon visible light irradiation the octa-[alpha]-thymidylate was photocrosslinked to the single-stranded 27-mer. Chain breaks were induced at the crosslinked sites upon piperidine treatment. From the location of the cleavage sites on the 27-mer sequence it was concluded that a triple helix was formed by the azidoproflavine-substituted oligo-[alpha]-thymidylate with its complementary oligodeoxyadenylate sequence. When the 27-mer duplex was used as a substrate cleavage sites were observed on both strands after piperidine treatment of the irradiated sample. They were located at well defined positions which indicated that the octathymidylate was bound to the (dA)8.(dT)8 sequence in parallel orientation with respect to the (dA)8-containing strand. Specific binding of the [alpha]-octathymidylate involved local triple strand formation with the duplex (dA)8.(dT)8 sequence. This result shows that it is possible to synthesize sequence-specific molecules which specifically bind oligopurine-oligopyrimidine sequences in double-stranded DNA via recognition of the major groove hydrogen bonding sites of the purines. |
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