Shintaro Ogata scite author profile

We describe the synthesis and properties of oligodeoxynucleotides (ODNs) containing 1,8-naphthyridine C-nucleoside (Na-NO) and imidazo[5',4':4,5]pyrido[2,3-d]pyrimidine nucleoside (Im-ON) at the termini. The modified ODNs were more resistant (6 to 40 times) than natural DNA to snake venom phosphodiesterase (SVPD). Although incorporation of one pair each of Na-NO:Im-ON on the sticky ends of the duplex was insufficient for thermal stabilization (+2.5 degrees C per pair relative to the G:C pair), the duplex containing two consecutive Na-NO:Im-ON pairs at its sticky ends was markedly stabilized thermally. The stabilizing effect of the incorporation of additional Na-NO:Im-ON pairs is estimated to be +7.8 degrees C per pair. Application as thermally stabilized decoy molecules to NF-kappaB (p50) was also demonstrated. The DNA duplexes containing the Na-NO:Im-ON pairs (ODN I:ODN II and ODN III:ODN IV) acted as competitors to the natural NF-kappaB-binding duplex (ODN V: ODN VI), and the calculated IC50 values of ODN I:ODN II and ODN III:ODN IV were 20.1+/-13.3 and 10.9+/-4.8 nM, respectively, greater than that of ODN V:ODN VI.

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Unnatural imidazopyridopyrimidine:naphthyridine base pairs: selective incorporation and extension reaction by Deep Vent (exo− ) DNA polymerase

Ogata

Takáhashi

Minakawa

et al. 2009

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In our previous communication we reported the enzymatic recognition of unnatural imidazopyridopyrimidine:naphthyridine (Im:Na) base pairs, i.e. ImON:NaNO and ImNO:NaON, using the Klenow fragment exo− [KF (exo−)]. We describe herein the successful results of (i) improved enzymatic recognition for ImNO:NaON base pairs and (ii) further primer extension reactions after the Im:Na base pairs by Deep Vent DNA polymerase exo− [Deep Vent (exo−)]. Since KF (exo−) did not catalyze primer extension reactions after the Im:Na base pair, we carried out a screening of DNA polymerases to promote the primer extension reaction as well as to improve the selectivity of base pair recognition. As a result, a family B DNA polymerase, especially Deep Vent (exo−), seemed most promising for this purpose. In the ImON:NaNO base pair, incorporation of NaNOTP against ImON in the template was preferable to that of the natural dNTPs, while incorporation of dATP as well as dGTP competed with that of ImONTP when NaNO was placed in the template. Thus, the selectivity of base pair recognition by Deep Vent (exo−) was less than that by KF (exo−) in the case of the ImON:NaNO base pair. On the other hand, incorporation of NaONTP against ImNO in the template and that of ImNOTP against NaON were both quite selective. Thus, the selectivity of base pair recognition was improved by Deep Vent (exo−) in the ImNO:NaON base pair. Moreover, this enzyme catalyzed further primer extension reactions after the ImNO:NaON base pair to afford a faithful replicate, which was confirmed by MALDI-TOF mass spectrometry as well as the kinetics data for extension fidelity next to the ImNO:NaON base pair. The results presented in this paper revealed that the ImNO:NaON base pair might be a third base pair beyond the Watson–Crick base pairs.

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Unnatural imidazopyridopyrimidine:naphthyridine base pairs: selective incorporation and extension reaction by DNA polymerases

Minakawa

Ogata

Takáhashi

et al. 2009

Nucleic Acids Symposium Series

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We describe herein the results of (i) enzymatic recognition for imidazopyridopyrimidine (Im):naphthyridine (Na) base pairs and (ii) further primer extension reactions after the Im:Na base pairs by DNA polymerases. Among the base pairs examined, ImN(O):NaO(N) base pair was rather selectively recognized by Klenow fragment exo(-) [F(exo(-))]as complementary base. However, this DNA polymerase did not catalyze primer extension reactions after the ImN(O):NaO(N) base pair. Therefore, we carried out a screening of DNA polymerases to promote the primer extension reaction as well as to improve the selectivity of base pair recognition. As a result, a family B DNA polymerase, especially Deep Vent (exo(-)), seemed most promising for this purpose.

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Shintaro Ogata

Selective Recognition of Unnatural Imidazopyridopyrimidine:Naphthyridine Base Pairs Consisting of Four Hydrogen Bonds by the Klenow Fragment

Synthesis and Characterization of Oligodeoxynucleotides Containing Naphthyridine:Imidazopyridopyrimidine Base Pairs at their Sticky Ends. Application as Thermally Stabilized Decoy Molecules

Unnatural imidazopyridopyrimidine:naphthyridine base pairs: selective incorporation and extension reaction by Deep Vent (exo− ) DNA polymerase

Unnatural imidazopyridopyrimidine:naphthyridine base pairs: selective incorporation and extension reaction by DNA polymerases

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