References
- Kampinga HH, Dynlacht JR, Dikoney E. Mechanism of radiosensitzation by hyperthermia (> 43°C) as derived from studies with DNA repair defective mutant cell lines. International Journal of Hyperthermia 2004; 20:131–139.
- Laszlo A. The effects of hyperthermia on mammalian cell structure and function. Cellular Proliferation 1992;25:59–87.
- Kregel KC. Heat shock proteins: modifying factors in physiological stress responses and acquired thermotolerance. Journal of Applied Physiology 2002;92:2177–2186.
- Lepock, JR Protein denaturation during heat shock. Advances in Molecular Cell Biology 1997;19:223–259.
- Johnson FH, Eyring H, Stover BJ. The theory of rate processes in biology and medicine. New York: John Wiley and Sons, Inc; 1974.
- Li GC, Fisher GA, Hahn GM. Induction of thermotolerance and evidence for a well-defined, thermotropic cooperative process. Radiation Research 1982;89:361–368.
- Warters RL,, Lyons BW, Axtell-Bartlett J. Inhibition of repair of radiation-induced DNA damage by thermal shock in Chinese hamster ovary cells. International Journal of Radiation Biology 1987;51:505–517.
- Dewey WC. The search for critical cellular targets damaged by heat. Radiation Research 1989;120:191–204.
- Lepock JR. Measurement of protein stability and protein denaturation in cells using differential scanning calorimetry. Methods 2005;35:117–125.
- Roti Roti JL, Henle KJ, Winward RT. The kinetics of increase in chromatin protein content in heated cells: A possible role in cell killing. Radiation Research 1979;78:522–531.
- Lepock JL. Role of nuclear protein denaturation and aggregation in thermal radiosensitzation. International Journal of Hyperthermia 2004;20:115–130.
- Borrelli MJ, Lepock JR, Frey HE, Lee YJ, Corry PM. Excess protein in nuclei isolated from heat-shocked cells results from a reduced extractability of nuclear proteins. Journal of Cellular Physiology 1996;167:369–379.
- Nguyen VT, Morange M, Bensaude 0. Protein denaturation during heat shock and related stress. Journal of Biological Chemistry 1989;264:10487–10492.
- Voellmy R. On mechanisms that control heat shock transcription factor activity in metazoan cells. Cell Stress & Chaperones 2004;9:122–133.
- Goodson ML, Sarge KD. Heat-inducible DNA binding of purified heat shock transcription factor 1. Journal of Biological Chemistry 1995;270:2447–2450.
- Zou J, Salminen WE, Roberts SM, Vollemy R. Repression of heat shock transcription Factor Hsfl activation by Hsp90 (Hsp90 complex) that forms a stress-sensitive complex with Hsf11. Cell 1998;94:471–480.
- Clos J, Rabindran S, Wisniewski J, Wu C. Induction temperature of human heat shock factor is reprogrammed in a drosophila cell environment. Nature 1993;364:252–255.
- Pratt WB, Toft DO. Steroid receptor interactions with heat shock protein and immunophilin chaperones. Endocr. Reviews 1997;18:306–360.
- Soti C, Pal C, Papp B, Csermely P. Molecular chaperones as regulatory elements of cellular networks. Current Opinions in Cell Biology 2005;17:210–215.