Wy. Li et al., SPECTROSCOPIC AND BINDING-PROPERTIES OF BERBERINE TO DNA AND ITS APPLICATION TO DNA DETECTION, Spectroscopy letters, 31(6), 1998, pp. 1287-1298
Berberine(BER) binds to the double helical DNA with a high affinity. T
here is only a much smaller hypochromism and no shifts in the absorpti
on spectra when BER binds to calf thymus DNA(CT DNA). The fluorescence
yields increase dramatically when BER binds to DNA, with no shifts in
the emission maximum These spectral changes are in contrast to the be
havior observed with many fluorescent intercalators Groove binding rat
her than intercalation was suggested to be the cause of these spectral
changes, Consistent with groove binding, ferrocyanide anion quenching
studies showed that the magnitude of K-sv of the bound BER was higher
than that of the free BER. The addition of salt to the solution relea
ses the DNA-bound drug cation from the groove and causes a decrease in
the fluorescence yield. The results of all above studies proved the g
roove binding of BER to DNA, The large fluorescence enhancements obser
ved when BER binds to DNA and the poor fluorescence yield of BER in th
e absence of DNA can be used for sensitive detection of DNA The linear
concentration range was 0-20 mu g/ml. The limit of detection for CT D
NA was 12 ng/ml.