Structural properties and the effect of 2,6‐diaminoanthraquinone on G‐tetrad, non‐G‐tetrads, and mixed tetrads—A density functional theory study

Telomerase inhibitor causes the attrition of telomere length and consequently leading to senescence which require a lag period for cancer cells to stop proliferating. Telomeric sequences form quadruplex structures stabilized by tetrads. The structural and electronic properties related with interaction of 2,6‐diaminoanthraquinone and tetrads are the key step to elucidate the anticancer activity. The present study has been focused on the stability of the isolated tetrads and the effect of interaction of 2,6‐diaminoanthraquinone with G‐tetrad, non‐G‐tetrads, and mixed tetrads using density functional theory method in both gas and aqueous phases. The solvent interaction with the molecular systems has increased the stability of the isolated tetrads and complexes. The sharing of electron density between the interacting molecules is shown through electron density difference maps. The atoms in molecules theory and natural bond orbital analysis have been performed to study the nature of hydrogen bonds in the inhibitor interacting complexes. The linear correlation is shown between electron density [ρ( r )], and its Laplacian [( 2 ρ( r )] at the bond critical points. The strong binding nature of 2,6‐diaminoanthraquinone with studied tetrads reveals that this inhibitor is suitable to stabilize the above tetrads and inhibit the telomerase activity. © 2010 Wiley Periodicals, Inc. Int J Quantum Chem, 2011