Authors: TRAUTINGER F KOKESCH C HERBACEK I KNOBLER RM KINDASMUGGE I

Citation: F. Trautinger et al., OVEREXPRESSION OF THE SMALL HEAT-SHOCK-PROTEIN, HSP27, CONFERS RESISTANCE TO HYPERTHERMIA, BUT NOT TO OXIDATIVE STRESS AND UV-INDUCED CELL-DEATH, IN A STABLY TRANSFECTED SQUAMOUS-CELL CARCINOMA CELL-LINE, Journal of photochemistry and photobiology.B, Biology, 39(1), 1997, pp. 90-95

Authors: POURMOJIB M KINDASMUGGE J HERBACEK I NEUNER P KOKESCH C KNOBLER R TRAUTLINGER F

Citation: M. Pourmojib et al., DIFFERENTIAL DISPLAY AND CLONING OF CDNAS FROM GENES INDUCED BY OVEREXPRESSION OF THE 27 KD HEAT-SHOCK-PROTEIN IN A KERATINOCYTE-DERIVED CELL-LINE, Journal of investigative dermatology, 109(3), 1997, pp. 423-423

Authors: KOKESCH C HERBACEK I KLOSNER G KNOBLER R NEUNER P KINDASMUGGE I TRAUTINGER F

Citation: C. Kokesch et al., INDUCTION OF THE 72-KD HEAT-SHOCK-PROTEIN BY ULTRAVIOLET A IRRADIATION IS INDEPENDENT OF OXIDATIVE STRESS, Journal of investigative dermatology, 109(3), 1997, pp. 426-426

Authors: KINDASMUGGE I HERBACEK I JANTSCHITSCH C MICKSCHE M TRAUTINGER F

Citation: I. Kindasmugge et al., MODIFICATION OF GROWTH AND TUMORIGENICITY IN EPIDERMAL-CELL LINES BY DNA-MEDIATED GENE-TRANSFER OF M(R) 27,000 HEAT-SHOCK PROTEIN (HSP27), Cell growth & differentiation, 7(9), 1996, pp. 1167-1174