Synthesis and anti-HIV-1 integrase activity of modified dinucleotides.

The synthesis of a series of thirty-eight new modified dinucleotides and dinucleotide conjugate analogues of d-(5')ApC(3') is described. The inhibitory activity of these compounds toward HIV-1 integrase was examined in enzymatic assays using the natural dinucleotide as a reference. Among the compounds, a perylene-dinucleotide conjugate has shown a two micromolar anti-integrase activity due to the presence of both the intercalator and the dinucleotide.

Detection of terminal mismatches on DNA duplexes in homogeneous assays or with immobilized probes.

We recently reported the design of new fluorescent oligo-2'-deoxyribonucleotides (FODNs) for the detection of terminal mismatches on DNA duplexes in homogeneous assays. We now report the validation of this method in homogeneous assays with other sequences and the feasibility of the detection of terminal mismatches with immobilized FODNs. In all cases studied, the mismatched duplexes were more fluorescent than the perfect ones and results confirmed that the discrimination factor is sequence-dependent.

Detection of terminal mismatches on DNA duplexes with fluorescent oligonucleotides.

This paper describes the design of terminal-mismatch discriminating fluorescent oligonucleotides (TMDFOs). The method is based on the use of sets of oligo-2'-deoxyribonucleotide probes linked via their 5'-ends, and varying-sized flexible polymethylene chains, to thiazole orange, with the linker being attached to the benzothiazole moiety. The sequence of each set of labelled probes was identical and complementary to the sequence to be analyzed on the single-stranded nucleic acid target except at the interrogation position, located at the 5'-end of the probes in a position adjacent to the attachment site of the label, where each of the four nucleic bases were incorporated.

Synthesis and properties of oligo-2'-deoxyribonucleotides containing internucleotidic phosphoramidate linkages modified with pendant groups ending with either two amino or two hydroxyl functions.

Single and multiple incorporations of stereochemically pure modified dinucleoside-phosphoramidates involving substituent groups ending with bis-hydroxyethyl and bis-aminoethyl groups have been performed into pyrimidic triple helix-forming oligo-2'-deoxyribonucleotides designed to bind parallel to the purine strand of the DNA target. The ability of these modified oligo-2'-deoxyribonucleotides to form triple helices has been studied by UV-melting curve analyses, and circular dichroism. Only the oligonucleotides involving modified phosphate groups with the Rp configuration formed more stable triple helices than did the parent phosphodiester sequences.