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

摘要

In our previous communication we reported the enzymatic recognition of unnatural imidazopyridopyrimidine:naphthyridine (Im:Na) base pairs, i.e. ImO^N:NaN^O and ImN^O:NaO^N, using the Klenow fragment exo⁻ [KF (exo⁻)]. We describe herein the successful results of (i) improved enzymatic recognition for ImN^O:NaO^N 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 ImO^N:NaN^O base pair, incorporation of NaN^OTP against ImO^N in the template was preferable to that of the natural dNTPs, while incorporation of dATP as well as dGTP competed with that of ImO^NTP when NaN^O 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 ImO^N:NaN^O base pair. On the other hand, incorporation of NaO^NTP against ImN^O in the template and that of ImN^OTP against NaO^N were both quite selective. Thus, the selectivity of base pair recognition was improved by Deep Vent (exo⁻) in the ImN^O:NaO^N base pair. Moreover, this enzyme catalyzed further primer extension reactions after the ImN^O:NaO^N 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 ImN^O:NaO^N base pair. The results presented in this paper revealed that the ImN^O:NaO^N base pair might be a third base pair beyond the Watson–Crick base pairs.