Luminescence spectroscopy coupled with capillary electrophoresis (CE) provides insight into the nature and
stereoselectivity of Cr(diimine)3
3+ interactions with polynucleotides. Photoluminescence measurements on Cr(phen)3
3+ and Cr(bpy)3
3+ in air or N2-saturated solution demonstrate strong B-DNA quenching of Cr(diimine)3
3+
emission intensities and lifetimes. Both dynamic and static quenching are observed, the latter being attributed to
DNA bound Cr(diimine)3
3+. Very rapid quenching is also observed with deoxyguanosine monophosphate (dGMP),
while no bimolecular quenching is observed with other mononucleotides. Likewise, poly(dG-dC)·poly(dG-dC)
causes rapid quenching, while only minor quenching is observed for poly(dA-dT)·poly(dA-dT). These emission
results are consistent with a DNA quenching mechanism involving guanine base oxidation. The electropherogram
resulting from the co-injection of rac-Cr(phen)3
3+ and rac-Ru(phen)3
2+ into a capillary containing B-DNA indicates
a similar binding constant for the two complexes, while the enantiomeric stereoselectivities are reversed. CE
studies for Ru(phen)3
2+ with distamycin A (an AT selective minor groove binder) reveal a significant reduction
in complex migration times and a complete loss of enantiomeric discrimination. These results are consistent with
a literature model where nonelectrostatic binding for both isomers occurs in the minor groove. Analogous distamycin
studies with Cr(phen)3
3+ are also in accord with minor groove binding.
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