5
Views
8
CrossRef citations to date
0
Altmetric
Original Article

Restoration of hyperthermia-associated increased protein to DNA ratio of nucleoids

, , &
Pages 49-62 | Received 17 Mar 1986, Published online: 09 Jul 2009

References

  • Baker H. W., Snedecor P. A., Goss J. C., Galen W. P., Gallucci J. J., Horowitz I. J., Dugan K. Regional hyperthermia for cancer. American Journal of Surgery 1982; 143: 586–590
  • Ben-Hur E., Elkind M. M., Bronk B. V. Thermally enhanced radio-response of cultured Chinese hamster cells: Inhibition of repair of sublethal damage and enhancement of lethal damage. Radiation Research 1974; 58: 38–51
  • Benyajati C., Worcel A. Isolation, characterization and structure of the folded interphase genome of Drosophila melanogaster. Cell 1976; 9: 393–407
  • Blair O. C., Winward R. T., Roti Roti J. L. The effect of hyperthermia on the protein content of HeLa cell nuclei: A flow cytometric analysis. Radiation Research 1979; 78: 474–84
  • Chong M. T., Garrard W. T., Bonner J. Purification and properties of a neutral protease from rat liver chromatin. Biochemistry 1974; 13: 5128–5134
  • Cook P. R., Brazell I. A. Conformational constraints in nuclear DNA. Journal of Cell Science 1976; 22: 287–302
  • Cook P. R., Brazell I. A. Supercoils in human DNA. Journal of Cell Science 1975; 19: 261–279
  • Cook P. R., Brazell I. A., Jost E. Characterization of nuclear structures containing superhelical DNA. Journal of Cell Science 1976; 22: 303–324
  • Cress A. E., Bowden G. T. Covalent DNA-protein crosslinking occurs after hyperthermia and radiation. Radiation Research 1983; 95: 610–619
  • Darzynkiewicz Z., Traganos F., Sharpless T., Malamed M. R. Thermal denaturation of DNA in situ as studied by acridine orange staining and automated cyto-fluorometry. Experimental Cell Research 1975; 90: 411–428
  • Dewey W. C., Westra A., Miller H. H., Nagasawa H. Heat induced lethality and chromosomal damage in synchronized Chinese hamster cells treated with 5-bromo-deoxyuridine. International Journal of Radiation Biology 1971; 20: 505–520
  • Dube D. K., Seal G., Loeb L. A. Differential heat sensitivity of mammalian DNA polymerases. Biochemical and Biophysical Research Communications 1977; 76: 483–487
  • Durkacz B. W., Irwin J., Shall S. The effect of inhibition of (ADP-ribose) biosynthesis on DNA repair assayed by the nucleoid technique. European Journal of Biochemistry 1981; 121: 65–69
  • Eickbush T. H., Watson D. K., Moudrianakis E. N. A chromatin-bound proteolytic activity with unique specificity for histone H2A. Cell 1976; 9: 785–792
  • Falkner F. G., Saumweber H., Biessmann H. Two Drosophila melanogaster proteins related to intermediate filament proteins of vertebrate cells. Journal of Cell Biology 1981; 91: 175–183
  • Gerweck L. E., Dewey W. C. Variation in response to heat during the mammalian cell cycle. Proceedings of the International Symposium on Cancer Therapy by Hyperthermia and Radiation. American College of Radiology, Chevy Chase, Md. 1976; 16–26
  • Glass J. R., DeWitt R. G., Cress A. E. Rapid loss of stress fibers in Chinese Hamster ovary cells after hyperthermia. Cancer Research 1985; 45: 258–262
  • Hahn G. M. Hyperthermia in cancer. Principles and Practice of Oncology, V. T. Devita, Jr., S. Hellman, S. A. Rosenberg. Lippincott, Philadelphia 1982; 1811–1821
  • Krueger R. C. The inhibition of chromatin-bound proteolytic activity. Archives of Biochemistry and Biophysics 1982; 218: 619–622
  • Kulkarni M. S., Heideprim P. M., Yeilding K. L. Production by lithocholic acid of DNA strand breaks in L1210 cells. Cancer Research 1980; 40: 2666–2669
  • Leith J. T., Miller R. C., Gerner E. W., Boone M. L. M. Hyperthermic potentiation: Biological aspects and applications to radiation therapy. Cancer 1977; 39: 766–779
  • Levinger L., Varshavsky A. Heat-shock proteins of Drosophila are associated with nuclease-resistant, high-salt-resistant nuclear structures. Journal of Cell Biology 1981; 90: 793–796
  • Lipetz P. D., Galsky A. G., Stephens R. E. Relationship of DNA tertiary and quaternary structure to carcinogenic processes. Advances in Cancer Research 1982; 36: 165–210
  • Mattern M. A. The relation of three-dimensional DNA structure to DNA repair as studied by nucleoid sedimentation. DNA Repair and its Inhibition, A. Collins, C. S. Downes, R. J. Johnson. Nucleic Acid Symposium No. 13, IRL Press, Oxford 1984; 35–50
  • Nagle W. A., Moss A. J., Jr. Inhibitors of poly(ADP-ribose)synthetase enhance the cytotoxicity of 42°C and 45°C hyperthermia in cultured Chinese hamster cells. International Journal of Radiation Biology 1983; 44: 475–481
  • Nakane M., Ide T., Anzai K., Ohara S., Andoh T. Supercoiled DNA folded by nonhistone proteins in cultured mouse carcinoma cells. Journal of Biochemistry 1978; 84: 145–157
  • Nolan N. L., Kidwell W. R. Effect of heat shock on poly(ADP-ribose) synthetase and DNA repair in Drosophila cells. Radiation Research 1982; 90: 187–203
  • Pettijohn D. E. Prokaryotic DNA in nucleoid structure. CRC Critical Reviews in Biochemistry 1976; 4: 175–201
  • Roti Roti J. L. Heat induced cell death and radiosensitization: molecular mechanisms. National Cancer Institute Monographs 1982; 61: 3–10
  • Roti Roti J. L., Painter R. B. Effects of hyperthermia on the sedimentation of nucleoids from HeLa cells in sucrose gradients. Radiation Research 1982; 89: 166–175
  • Roti Roti J. L., Winward R. T. The effects of hyperthermia on the protein-to-DNA ratio of isolated HeLa cell chromatin. Radiation Research 1978; 74: 159–169
  • Roti Roti J. L., Winward R. T. Factors affecting the heat-induced increase in protein content of chromatin. Radiation Research 1980; 81: 138–144
  • Tomasovic S. P., Turner G. N., Dewey W. C. Effect of hyperthermia on nonhistone proteins isolated with DNA. Radiation Research 1978; 73: 535–552
  • Van Wijk R. Regulation of DNA synthesis in cultured rat hepatoma cells. International Review of Cytology 1982; 85: 63–107
  • Warters R. L., Henle K. J. DNA degradation in Chinese hamster ovary cells after exposure to hyperthermia. Cancer Research 1982; 42: 4427–4482
  • Worcel A., Benyajati C. Higher order coiling of DNA in chromatin. Cell 1977; 12: 83–100

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.