Structure of photoreactive binary system of oligonucleotide conjugates assembled on the target nucleotide sequence.

Recently we have developed an approach to superspecific photomodification of nucleic acids by binary systems of oligonucleotides conjugated to precursor groups capable of assembling into photoactivatable structure upon simultaneous binding of the conjugates to the target. We have investigated the solution structure of a model binary system 1:2:3, where 1 is the target 12-mer 5'-pdGTATCAGTTTCT, 2 is the photoreactive conjugate 5'-dAGAAACp-NH(CH2)2NH-Az and 3 is the sensitizing conjugate 5'-Pyr-pdTGATAC (Az is p-azidotetrafluorobenzoyl group and Pyr is the pyrenyl-1-methylamino group). The photoreaction within this complex results in crosslinking of reagent 2 with N7-position of the G7 residue of the target thus indicating that the photoreactive Az residue is located in the major groove near the G7 residue. The center-to-center distances between the Pyr and Az moieties in complex 1:2:3 independently determined by the Pyr-group fluorescence quenching and the Az-group sensitized photodecomposition were 11.2 and 12.6 A, respectively.