2-Aminopurine electronic structure and fluorescence properties in DNA

2-Aminopurine (2AP) fluorescence intensity and decay lifetimes have been used as indicators of nucleic acid geometry and dynamics. To characterize 2AP photophysics in the context of a DNA strand, time-dependent density functional theory is applied to 2AP stacked with two flanking nucleobases. Calculations show that 2AP in the trimers suffers a reduction in the oscillator strength of its low-lying,pi-pi* 2AP-like allowed transition, manifested in a reduction of its radiative rate. Trimers also exhibit two or three lower-energy excited states (charge transfer states) that are predicted to facilitate nonradiative transitions from the fluorescent excited state.