p. 1−7
2345-4806
Vol.6/No.Issue 1, pp. 1-108, Serial No. 18
p. 8−18
2345-4806
Vol.6/No.Issue 1, pp. 1-108, Serial No. 18
p. 19−29
2345-4806
Vol.6/No.Issue 1, pp. 1-108, Serial No. 18
0) and entropy favored (ΔS >0). The viscosity studies showed no considerable increasing changes in the viscosity of ct-DNA with increasing of the complex (1) concentration. Therefore, the [Ni(FIP)2](OAC)2 complex bind to ct-DNA via hydrophobic interaction as the main forces acting during the binding processes and the mode of binding is groove binding which was illustrated by hyperchromism in the UV-vis absorption band of [Ni(FIP)2](OAC)2 (1) with addition of ct-DNA and the decreasing of ethidium bromide (EB)-ct-DNA complex fluorescence in the presence of different concentrations of [Ni(FIP)2](OAC)2 complex and the unchanged viscosity of ct-DNA.]]>
p. 30−38
2345-4806
Vol.6/No.Issue 1, pp. 1-108, Serial No. 18
p. 39−48
2345-4806
Vol.6/No.Issue 1, pp. 1-108, Serial No. 18
p. 49−54
2345-4806
Vol.6/No.Issue 1, pp. 1-108, Serial No. 18
p. 55−61
2345-4806
Vol.6/No.Issue 1, pp. 1-108, Serial No. 18
p. 62−69
2345-4806
Vol.6/No.Issue 1, pp. 1-108, Serial No. 18
p. 70−77
2345-4806
Vol.6/No.Issue 1, pp. 1-108, Serial No. 18
p. 78−86
2345-4806
Vol.6/No.Issue 1, pp. 1-108, Serial No. 18
p. 87−96
2345-4806
Vol.6/No.Issue 1, pp. 1-108, Serial No. 18
p. 97−108
2345-4806
Vol.6/No.Issue 1, pp. 1-108, Serial No. 18