A fluorospectrophotometric study on the binding of acridine orange with DNA and its bases
References (27)
- et al.
J. Mol. Biol
(1961) - et al.
Virology
(1958) - et al.
Arch. Biochem. Biophys
(1959) J. Mol. Biol
(1961)J. Mol. Biol
(1964)- et al.
Arch. Biochem. Biophys
(1962) - et al.
J. Mol. Biol
(1965) - et al.
J. Mol. Biol
(1964) - et al.
Biochim. Biophys. Acta
(1964) - et al.
Mol. Pharmacol
(1967)
Mol. Pharmacol
(1967)
Cited by (24)
Enhanced fluorescence effect of acridine orange sorbed on 2:1 layered clay minerals
2020, Applied Clay ScienceCitation Excerpt :In this study, IT had higher charge density than the other two and indeed the relative contribution to the total UV absorbance by H-aggregates was slightly higher (Fig. 3). In studying AO-DNA interactions, two regions were observed with the first dominated by ionic bonding between AO and the phosphate groups of DNA under high AO/DNA ratios and the second by hydrophobic interactions between AO and the bases of DNA under low AO/DNA ratios (Yamabe, 1969). However, in the cases of 2:1 layered clay minerals of relatively high charge density, hydrophobic interactions between AO and the charged mineral surface is unlikely.
Studies of charge transfer interaction of nucleotides with proflavine
1995, Journal of Photochemistry and Photobiology, A: ChemistryThe fluorescence of dye-nucleic acid complexes
1981, Journal of LuminescenceFluorescence decay and quantum yield characteristics of acridine orange and proflavine bound to DNA
1977, Biophysical ChemistryDynamics of small molecule-micelle interactions. A stopped-flow investigation of the kinetics of absorption of acridine (and related) dyes into anionic
1975, Advances in Molecular Relaxation Processes
Copyright © 1969 Published by Elsevier Inc.