New cyanine-oligonucleotide conjugates: relationships between chemical structures and properties

Because the influence of the chemical structure of monomethine cyanine-oligo-2-deoxyribonucleotide (ODN) conjugates on their binding and fluorescence properties has remained largely undetermined, we synthesized and studied a wide range of conjugates with various structural patterns. Different cyanine dyes such as thiocyanine, quinocyanine, and thiazole orange isomers were obtained. In the case of unsymmetrical cyanines, the linker was attached to either the quinoline or the benzothiazole nucleus. The influence of the ODN counterpart was evaluated by linking the cyanines to the 5-end or to an internucleotidic phosphate. In the first case, the influence of neighboring nucleic bases was studied, whereas in the second, the stereochemical configuration at the phosphorus atom bearing the cyanine was investigated. We report here on relationships between the structures of the dyes and conjugates and some of their properties, such as the stability and fluorescence changes observed on their hybridization with the target sequence. This study provides useful information towards the design of ODN-cyanine conjugates

Synthesis and hybridization properties of oligonucleotide-perylene conjugates: influence of the conjugation parameters on triplex and duplex stabilities

We report here the synthesis of oligo-2'-deoxyribonucleotides (ODNs) conjugated with perylene. Introduction of perylene, coupled either directly or via a propyl linker to the anomeric position of a 2'-deoxyribose residue, induces the formation of two anomers. Single incorporations of each pure anomer of these sugar-perylene units have been performed at either the 5'-end or an internal position of a pyrimidic pentadecamer. The binding properties of these modified ODNs with their single- and double-stranded DNA targets were studied by absorption spectroscopy. Double incorporations of the sugar-perylene unit most efficient at stabilizing the triplex and duplex structures (the beta-anomer involving the propyl linker) have been performed at both the 5'-end and at an internal position (or both the 5'- and 3'-ends) of the ODN chain. Comparison has been made with ODN-perylene conjugates involving either one or two perylenes attached via a longer polymethylene chain to either the 5'- or 3'- (or both the 5'-and 3'-) terminal phosphate groups. The ODNs involving two perylenes are more efficient at stabilizing the triplex and the duplex structures than the ODNs involving only one perylene and, among these, the ODN-perylene conjugate involving two sugar-perylene units attached at both termini is the most efficient. The results of the fluorescence studies have shown an important increase in the intensity of the fluorescent signal upon hybridization of the ODNs involving two perylenes with either the single- or the double-stranded targets. This increase in the intensity of the fluorescent signal could be used as proof of the hybridization