Sequence-Dependence of the Energetics of Opening of AT Basepairs in DNA

Abstract

Proton exchange and nuclear magnetic resonance spectroscopy are being used to characterize the energetics of opening of AT/TA basepairs in the DNA dodecamer 5′-d(GCTATAAAAGGG)-3′/5′-d(CCCTTTTATAGC)-3′. The dodecamer contains the TATA box of the adenovirus major late promoter. The equilibrium constants for opening of each basepair are measured from the dependence of the exchange rates of imino protons on ammonia concentration. The enthalpy, entropy, and free energy changes in the opening reaction of each basepair are determined from the temperature dependence of the exchange rates. The results reveal that the opening enthalpy changes encompass a wide range of values, namely, from 17 to 29 kcal/mol. The largest values are observed for the AT basepairs in 7th and 8th positions. These values, and the exchange rates of the corresponding imino protons, suggest that these two basepairs open in a single concerted reaction. The enthalpy changes for opening of the central six basepairs are correlated to the opening entropy changes. This enthalpy-entropy compensation minimizes the variations in the opening free energies among these central basepairs. Deviations from the enthalpy-entropy compensation pattern are observed for basepairs located close to the ends of the duplex structure, suggesting a different mode of opening for these basepairs.