Vivek K. Rajwanshi scite author profile

T-705 (Favipiravir) is a broad-spectrum antiviral molecule currently in late stage clinical development for the treatment of influenza virus infection. Although it is believed that T-705 potency is mediated by its ribofuranosyl triphosphate (T-705 RTP) metabolite that could be mutagenic, the exact molecular interaction with the polymerase of influenza A virus (IAVpol) has not been elucidated. Here, we developed a biochemical assay to measure the kinetics of nucleotide incorporation by IAVpol in the elongation mode. In this assay, T-705 RTP was recognized by IAVpol as an efficient substrate for incorporation to the RNA both as a guanosine and an adenosine analog. Compared to natural GTP and ATP, the discrimination of T-705 RTP was about 19- and 30-fold, respectively. Although the single incorporation of the ribonucleotide monophosphate form of T-705 did not efficiently block RNA synthesis, two consecutive incorporation events prevented further primer extension. In comparison, 3′-deoxy GTP caused immediate chain termination but was incorporated less efficiently by the enzyme, with a discrimination of 4,900-fold relative to natural GTP. Collectively, these results provide the first detailed biochemical characterization to evaluate the substrate efficiency and the inhibition potency of nucleotide analogs against influenza virus polymerase. The combination of ambiguous base-pairing with low discrimination of T-705 RTP provides a mechanistic basis for the in vitro mutagenic effect of T-705 towards influenza virus.

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The conformations of locked nucleic acids (LNA)

Petersen

et al. 2000

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We have used 2D NMR spectroscopy to study the sugar conformations of oligonucleotides containing a conformationally restricted nucleotide (LNA) with a 2'-O, 4'-C-methylene bridge. We have investigated a modified 9-mer single stranded oligonucleotide as well as three 9- and 10-mer modified oligonucleotides hybridized to unmodified DNA. The single-stranded LNA contained three modifications whereas the duplexes contained one, three and four modifications, respectively. The LNA:DNA duplexes have normal Watson-Crick base-pairing with all the nucleotides in anti-conformation. By use of selective DQF-COSY spectra we determined the ratio between the N-type (C3'-endo) and S-type (C2'-endo) sugar conformations of the nucleotides. In contrast to the corresponding single-stranded DNA (ssDNA), we found that the sugar conformations of the single-stranded LNA oligonucleotide (ssLNA) cannot be described by a major S-type conformer of all the nucleotides. The nucleotides flanking an LNA nucleotide have sugar conformations with a significant population of the N-type conformer. Similarly, the sugar conformations of the nucleotides in the LNA:DNA duplexes flanking a modification were also shown to have significant contributions from the N-type conformation. In all cases, the sugar conformations of the nucleotides in the complementary DNA strand in the duplex remain in the S-type conformation. We found that the locked conformation of the LNA nucleotides both in ssLNA and in the duplexes organize the phosphate backbone in such a way as to introduce higher population of the N-type conformation. These conformational changes are associated with an improved stacking of the nucleobases. Based on the results reported herein, we propose that the exceptional stability of the LNA modified duplexes is caused by a quenching of concerted local backbone motions (preorganization) by the LNA nucleotides in ssLNA so as to decrease the entropy loss on duplex formation combined with a more efficient stacking of the nucleobases.

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The first analogues of LNA (Locked Nucleic Acids): Phosphorothioate-LNA and 2′-thio-LNA

Kumar

Singh

Koshkin

et al. 1998

Bioorganic & Medicinal Chemistry Letters

206

135

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