A research about base-pair specificity of the DNA binding of [Fe(phen)₃]²⁺, [Fe(phen)₂(dip)]²⁺ and [Fe(phen)(dip)₂]²⁺ complexes and the effect of calf-thymus DNA (ct-DNA) binding of these metal complexes on thermal denaturation of ct-DNA has been carried out. This research is intended to evaluate the preferential binding of the complexes to the sequence of DNA (A-T or G-C sequence) and to investigate the binding strength and mode upon their interaction with DNA. Base-pair specificity of the DNA binding of the complexes was determined by comparing the equilibrium binding constant (K_b) of each complex to polysynthetic DNA that contain only A-T or G-C sequence. The K_b value of the interaction was determined by spectrophotometric titration and thermal denaturation temperature (T_m) was determined by monitoring the absorbance of the mixture solution of each complex and ct-DNA at λ =260 nm as temperature was elevated in the range of 25 - 100 ^oC. Results of the study show that in general all iron(II) complexes studied exhibit a base-pair specificity in their DNA binding to prefer the relatively facile A-T sequence as compared to the G-C one. The thermal denaturation experiments have demonstrated that Fe(phen)₃]²⁺ and [Fe(phen)₂(dip)]²⁺ interact weakly with double helical DNA via electrostatic interaction as indicated by insignificant changes in melting temperature, whereas [Fe(phen)₂(dip)]²⁺  most probably binds to DNA in mixed modes of interaction, i.e.: intercalation and electrostatic interaction. This conclusion is based on the fact that the binding of [Fe(phen)₂(dip)]²⁺ to ct-DNA moderately increase the T_m value of ct- DNA

[1] Lerman, L.S., 1961, J. Mol. Biol., 3,18.

[2] Chow, C. S. and Bogdan, F. M., 1997, Chem. Rev. 97, 1489.

[3] Schilt, A. A. and Taylor, R. C. 1959, J. Inorg. Nucl. Chem., 9, 211.

[4] Mudasir, Yoshioka, N., and Inoue, H., 1999, Transition Met. Chem., 24, 210.

[5] Well, R. D., J. E. Larson, R. C. Shortle and C. R. Cantor, 1970, J. Mol. Biol. 54, 465.

[6] Liu, F., Meadows, K.A. and McMillin, D.R. 1993, J. Am. Chem. Soc., 115, 6699.

[7] Schmechel, D.E.V. and Crothers, D.M., 1971, Biopolymers, 10, 465.

[8] Mudasir, Yoshioka, N., and Inoue, H., 1999, J. Inorg. Biochem., 77, 239.

[9] Lincoln, P. and Norden, B., 1998, J. Phys. Chem. B, 102 , 9583.

[10] Choi, S-D., Kim, M-S., Kim, S. K., Tuite, E. and Norden, B., 1997, Biochemistry, 36, 214.

[11] Nair, R. B., Teng, E. S., Kirk, S. L., and Murphy, C. J., 1998, Inorg. Chem., 37, and refs. there in.