References
- Anderson P., Bauer W. Supercoiling in closed circular DNA: dependence upon ion type and concentration. Biochemistry 1978; 17: 594–601
- Arscott P.G., Li A.-Z., Bloomfield V.A. Condensation of DNA by trivalent cations. 1. Effects of DNA length and topology on the size and shape of condensed particles. Biopolymers 1990; 30: 619–630
- Baase W.A., Johnson W.C. Circular dichroism and DNA secondary structure. Nucleic Acid Research 1979; 6: 797–813
- Behe M., Felsenfeld G. Effects of methylation on a synthetic polynucleotide: the B-Z transition in poly(dG.m5dC).poly(dG.m5dC). Proceedings of the National Academy of Sciences, USA 1981; 78: 1619–1623
- Bleam M.L., Anderson C.F., Record M.T. Relative binding affinities of monovalent cations for double-stranded DNA. Proceedings of the National Academy of Sciences, USA 1980; 77: 3085–3089
- Bloomfield V.A. Condensation of DNA by multivalent cations: considerations on mechanism. Biopolymers 1991; 31: 1471–1481
- Brady G.W., Satkowski M., Foos D., Benham C.J. Environmental influences on DNA superhelicity. Ionic strength and temperature effects on superhelix conformation in solution. Biomolecular Stereodynamics IV, R.H. Sarma, M.H. Sarma. Adenine Press, Guilderland, NY 1986; 63–74, In
- Braunlin W.H., Anderson C.F., Record T.M. 23Na-NMR investigations of counterion exchange reaction of helical DNA. Biopolymers 1986; 25: 205–214
- Braunlin W.H., Drakenberg T., Noprdenskiold L. A 43Ca-NMR study of Ca(II)-DNA interactions. Biopolymers 1987; 26: 1047–1062
- Chiu S.-M., Xue L.-Y., Friedman L.R., Oleinick N.L. Chromatin compaction and the efficiency of formation of DNA-protein crosslinks in γ-irradiated mammalian cells. Radiation Research 1992; 129: 184–191
- Clementi E. Structure of water and counterions for nucleic acids in solution. Structure and Dynamics: Nucleic Acids and Proteins, E. Clementi, R.H. Sarma. Adenine Press, Guilderland, NY 1983; 321–363, In
- Eichhorn G.L., Shin Y.A. Interaction of metal ions with polynucleotides and related compounds. XII. The relative effect of various metal ions on DNA helicity. Journal of the American Chemical Society 1968; 90: 7323–7328
- Fenley M.O., Manning G.S., Olson W.K. Approach to the limit of counterion condensation. Biopolymers 1990; 30: 1191–1203
- Guéron M., Weisbuch G. Polyelectrolyte theory. I. Counterion accumulation, site-binding and their insensitivity to polyelectrolyte shape in solutions containing finite salt concentrations. Biopolymers 1980; 19: 353–382
- Held K.D., Awad S. Effects of polyamines and thiols on the radiation sensitivity of bacterial transforming DNA. International Journal of Radiation Biology 1991; 59: 699–710
- Langlais M., Tajmir-Riahi H.A., Savoie R. Raman spectroscopic study of the effects of Ca2+, Mg2+, Zn2+, and Cd2+ ions on calf thymus DNA: binding sites and conformational changes. Biopolymers 1990; 30: 743–752
- Maniatis T.C., Fritsch E.F., Sambrook J. Molecular Cloning. A Laboratory Manual. Cold Spring Harbor Laboratory, Cold Spring Harbor 1982; 88–96
- Manning G.S. The molecular theory of polyelectrolyte solution with application to the electrostatic properties of polynucleotides. Quarterly Review of Biophysics 1978; 11: 179–246
- Marquet R., Houssier C. Thermodynamics of cation-induced DNA condensation. Journal of Biomolecular Structure and Dynamics 1991; 9: 159–167
- Miller J.H., Nelson J.M., Ye M., Swenberg C.E., Speicher J.M., Benham C.J. Negative supercoiling increases the sensitivity of plasmid DNA to single-strand break induction by X-rays. International Journal of Radiation Biology 1991; 59: 941–949
- O'Neil P., Al-Kazwini A.T., Land E.J., Fielden E.M. Diffuse reflectance pulse radiolysis of solid DNA: the effect of hydration. International Journal of Radiation Biology 1989; 55: 531–538
- Österberg R., Persson D., Bjursell G. The condensation of DNA by chromium(III) ions. Journal of Biomolecular Structure and Dynamics 1984; 2: 285–290
- Parrack P.K., Datta S., Sasisekharan V. A detailed study of Li-DNA fibres at various salt concentrations reveal a non-helical B-DNA and a possible similarity of solution and solid state structures. Journal of Biomolecular Structure and Dynamics 1984; 2: 149–157
- Paulsen M.D., Anderson C.F., Record T.M. Counterion exchange reactions on DNA: Monte Carlo and Poisson-Boltzmann analysis. Biopolymers 1988; 27: 1249–1265
- Pohl F., Jovin T.M. Salt-induced co-operative conformational change of a synthetic DNA: equilibrium and kinetic studies with poly(dG.dC). Journal of Molecular Biology 1972; 67: 375–396
- Pörschke D. Intramolecular collapse of DNA: structure and dynamics. Biomolecular Stereodynamics IV, R.H. Sarma, M.H. Sarma. Adenine Press, Guilderland, NY 1986; 11–20, In
- Raaphorst G.P., Kruuv J. Effect of salt solutions on radiosensitivity of mammalian cells. II. Treatment with hypotonic solutions. International Journal of Radiation Biology 1977; 32: 89–101
- Record M.T., Anderson C.F., Lohman T.M. Thermodynamic analysis of ion effect on the binding and conformational equilibria of proteins and nucleic acids: the roles of ion association or release, screening, and ion effects on water activity. Quarterly Review of Biophysics 1978; 11: 103–178
- Record M.T., Mazur S.J., Melancon P., Roe J.-H., Shaner S.L., Unger L. Double helical DNA: conformations, physical properties, and interactions with ligands. Annual Review of Biochemistry 1981; 50: 997–1024
- Schulte-Frohlinde D. Studies of radiation effects on DNA in aqueous solution. ICRU News December, 1989; 5–15
- Sideris E.G., Katsaros N., Tsolomyty A. Binding position of certain metal ions on the DNA and its possible relationship to radiation-induced genetic lesions in the V-79 cells culture. Frontiers in Radiation Biology, E. Riklis. VCH, WeinheimFRG 1990; 451–457, In
- Siddiqi M.A., Bothe E. Single and double strand break formation in DNA irradiated in aqueous solution: dependence on dose and OH radical scavenger concentration. Radiation Research 1987; 112: 449–463
- Shin Y.A., Butzow J.J., Sinsel L.D., Clark P., Pillai R.P., Johnson W.C., Eichhorn G.L. Metal-induced sequential transitions among DNA concentrations. Biopolymers 1988; 27: 1415–1432
- Skerjanc J., Strauss U.P. Interactions of polyelectrolytes with simple electrolytes. III. The binding of magnesium ion by DNA. Journal of the American Chemical Society 1968; 90: 3081–3085
- Spotheim-Maurizot M., Charlier M., Sabattier R. DNA radiolysis by fast neutrons. International Journal of Radiation Biology 1990; 57: 301–313
- Spotheim-Maurizot M., Franchet J., Sabattier R., Charlier M. DNA radiolysis by fast neutrons. II. Oxygen, thiols and ionic strength effects. International Journal of Radiation Biology 1991; 59: 1313–1324
- Soumpasis D.M. Ionic stabilization and modulation of nucleic acid conformations in solution. Biomolecular Stereodynamics IV, R.H. Sarma, M.H. Sarma. Adenine Press, Guilderland, NY 1986; 47–62, In
- Swarts S., Sevilla M.D., Becker D., Tokar C.J., Wheeler K.T. Radiation-induced DNA breakage as a function of hydration. I. Release of unaltered bases. Radiation Research 1992; 129: 333–344
- Thomas T.J., Bloomfield V.A. Collapse of DNA caused by trivalent cations: pH and ionic specificity effects. Biopolymers 1983; 22: 1097–1106
- Trend B.L., Knoll D.A., Ueno M., Evans D.F., Bloomfield V.A. Cation radius effects on the helix-coil transition of DNA. Biophysical Journal 1990; 57: 829–834
- von Sonntag C. The Chemical Basis of Radiation Biology. Taylor & Francis, London 1987; 240–249
- Ward J.F. DNA damage produced by ionizing radiation in mammalian cells: identities, mechanisms of formation, and reparability. Progress in Nucleic Acid Research and Molecular Biology 1988; 35: 95–125
- Ward J.F., Kuo I. The effect of chloride ions on the gamma-radiation-induced destruction of DNA, nucleosides and nucleotides in aqueous solutions. International Journal of Radiation Biology 1970; 18: 381–390
- Ward J.F., Kuo I. Radiation damage to DNA in aqueous solution: a comparison of the response of the single-stranded form with that of the double-stranded form. Radiation Research 1978; 75: 278–285
- Washino K., Schnabel W. Radiation-induced molecular size changes in native and denatured deoxyribonucleic acid under anoxic conditions. A pulse radiolysis study. Makromoleculare Chemie 1982; 183: 697–709
- Widom J., Baldwin R.L. Cation-induced toroidal condensation of DNA. Studies with Co3+(NH3)6. Journal of Molecular Biology 1980; 144: 431–453
- Wilson R.W., Bloomfield V.A. Counterion-induced condensation of deoxyribonucleic acid. Biochemistry 1979; 18: 2192–2196
- Wilson R.W., Rau D.C., Bloomfield V.A. Comparison of polyelectrolyte theories of the binding of cations to DNA. Biophysical Journal 1980; 30: 317–326
- Zheng S., Newton G.L., Gonick G., Fahey R.C., Ward J.F. Radioprotection of DNA by thiols: relationship between the net charge on a thiol and its ability to protect DNA. Radiation Research 1988; 114: 11–27
- Zimm B.H., LeBret M. Counter-ion condensation and system dimensionality. Journal of Biomolecular Structure and Dynamics 1983; 1: 461–471