| Abstract: | Using an iterative approach, we have placed monovalent (“solvated”) and divalent (both solvated and “unsolvated”) ions around a 20 base pair sequence, (dC-dG)10, in standard B and ZI conformations. The molecule with its attendant ions in the various conformations is subjected to to energy minimization using the program AMBER. In the presence of solvated cations (both monovalent as well as divalent) the B form is more stable than the Z form. However, direct binding with the unsolvated divalent cations makes the Z form more stable. Groove-binding provides some insight into the facility with which the B to Z transition occurs with higher charged cations. In the presence of unsolvated divalent cations, the Z form binds more charges at the groove through more ligands, compared to the B form. The orientation around the CpG phosphates in the minor groove of the Z form is found ideal for ion binding. Detailed molecular models for the ion binding have been developed. In general, phosphate groups dominate the ion binding. Large perturbations are seen mostly in the angles that control the phosphate orientation. |
