References
- Ben-Hur E., Lindquist K., Elkind M.M. Poly(ADP-ribose) and recovery from damage in Chinese hamster cells due to 5-bromodeoxyuridine photolysis. International Journal of Radiation Biology 1985; 48: 33–43
- Bontemps J., Houssier C., Fredricq E. Physico-chemical study of the complexes of ‘33258 Hoechst’ with DNA and nucleohistone. Nucleic Acids Research 1975; 2: 971–984
- Charlton D.E. The range of high LET from 125I decays. Radiation Research 1986; 107: 163–171
- Charlton D.E., Humm J.L. A method of calculating initial DNA strand breakage following decay of incorporated 125I. International Journal of Radiation Biology 1988; 53: 353–365
- Charnas R.L., Goldberg I.H. Neocarzinostatin abstracts a hydrogen during formation of nucleotide 5′-aldehyde on DNA. Biochemistry and Biophysical Research Communication 1984; 122: 642–648
- Chin D.-H., Kappen L.S., Goldberg I.H. 3′-formyl phosphate-ended DNA: high-energy intermediate in antibiotic-induced DNA sugar damage. Proceedings of the National Academy of Sciences, USA 1987; 84: 7070–7074
- Harshman K.D., Dervan P.B. Molecular recognition of B-DNA by Hoechst 33258. Nucleic Acids Research 1985; 13: 4825–4835
- Hutchinson F. The lesions produced by ultra violet light in DNA containing 5-bromouracil. Quarterly Review of Biophysics 1973; 6: 201–246
- Kappen L.S., Goldberg I.H. Deoxyribonucleic acid damage by neocarzinostatin chromophore: strand breaks generated by selective oxidation of C-5′ of deoxyribose. Biochemistry 1983; 22: 4872–4878
- Kinsella T.J., Russo A., Mitchell J.B., Collins J.R., Roland J., Wright D., Glatstein E. Phase I study of intravenous iododeoxyuridine as a clinical radiosensitizer. International Journal of Radiation Oncology, Biology, Physics 1985; 11: 1941–1946
- Larson, D., et al. Auger electron contribution to bromodeoxyuridine cellular radiosensitization. International Journal of Radiation Oncology, Biology, Physics 1989; 16: 171–176
- Martin R.F., Haseltine W.A. Range of radiochemical damage to DNA with decay of iodine-125. Science 1981; 213: 896–898
- Martin R.F., Holmes N. Use of an 125I-labelled DNA ligand to probe DNA structure. Nature 1983; 302: 452–454
- Martin R.F., Pardee M., Mack P., Kelly D.P. Synthesis and characterization of 2-iodo-4-[5″-(4″′-methylpiperazin-1″′-y1)-2″,5′bi-1H-benzimidazol-2′-yl]phenol (iodoHoechst 33258) and 2,5-disubstituted benzimidazole model compounds. Australian Journal of Chemistry 1985; 39: 373–381
- Murray V., Martin R.F. The sequence specificity of 125I-labelled Hoechst 33258 in intact human cells. Journal of Molecular Biology 1988a; 201: 437–442
- Murray V., Martin R.F. The sequence specificity of 125I-labelled Hoechst 33258 damage in six closely related sequences. Journal of Molecular Biology 1988b; 203: 63–73
- Murray V., Martin R.F. The degree of ultraviolet light damage to DNA containing iododeoxyuridine or bromodeoxyuridine is dependent on the DNA sequence. Nucleic Acids Research 1989; 17: 2675–2691
- Nath R., Bongiorni M.S., Rockwell S. Enhancement of IUdR radiosensitization by low energy photons. International Journal of Radiation Oncology, Biology, Physics 1987; 13: 1071–1079
- Pjura P.E., Grzeskowiak K., Dickerson R.E. Binding of Hoechst 33258 to the minor groove of B-DNA. Journal of Molecular Biology 1987; 197: 257–271
- Teng M., Usman N., Frederick C.A., Wang A.H.-J. The molecular structure of the complex of Hoechst 33258 and the DNA dodecamer d(CGCGAATTCGCG). Nucleic Acids Research 1988; 16: 2671–2690
- von Sonntag C. The Chemical Basis of Radiation Biology. Taylor & Francis, London 1987
- Zein N., Sinha A.M., McGahren W.J., Ellestad G.A. Calicheamicin γI1: An antitumor antibiotic that cleaves double-stranded DNA site specifically. Science 1988; 240: 1198–1201