Stabilization of an abasic site paired against an unnatural triazolyl nitrobenzene nucleoside.

An abasic site is the most frequently observed among the various forms of DNA lesions in genomic DNA. If left unrepaired, an abasic site might turn out to be a principle cause for deleterious mutations and can be threat to cellular survival. Thus, to keep cellular integrity and measure the extent of DNA damage, recognition and stabilization of the abasic sites (apurinic/apyrimidinic site = Ap) are essential. Further, it is crucial to detect and stabilise the abasic site for towards the development of new diagnostics and chemotherapeutics. Herein, we report the stabilization of an abasic DNA duplex wherein the abasic site paired against a novel unnatural nucleoside, triazolylnitrobenzene (TNBBAc). This nucleoside is bulky and exhibits, high polarizability and good stacking propensity. Robust hetero-pair stabilization is another feature of it. Therefore, it is interesting to study the stabilization of an abasic DNA containing a synthesized triazolylnitrobenzene nucleoside TNBBAc We planned to study the thermal as well as the thermodynamic origin of abasic DNA stabilization by our synthesized oligonucleotide probe containing TNBBAc nucleoside. We observed that the nucleoside TNBBAc offered good thermal stabilization of a TNBBAc-Φ duplex via strong intercalative stacking interaction alongside an abasic site. The UV-visible spectroscopic study supported the intercalative stacking interaction. The stabilization though is marginal, but it would shed light on the design of bases of significant volume to stabilise abasic DNA to a greater extent.