Authors:
FRANKENBERG D
KUHN H
FRANKENBERGSCHWAGER M
LENHARD W
BECKONERT S
Citation: D. Frankenberg et al., 0.3 KEV CARBON-K ULTRASOFT X-RAYS ARE 4 TIMES MORE EFFECTIVE THAN GAMMA-RAYS WHEN INDUCING ONCOGENIC CELL-TRANSFORMATION AT LOW-DOSES, International journal of radiation biology, 68(6), 1995, pp. 593-601
Authors:
GLASUNOV AV
FRANKENBERGSCHWAGER M
FRANKENBERG D
Citation: Av. Glasunov et al., DIFFERENT REPAIR KINETICS FOR SHORT AND LONG DNA DOUBLE-STRAND GAPS IN SACCHAROMYCES-CEREVISIAE, International journal of radiation biology, 68(4), 1995, pp. 421-428
Authors:
FRANKENBERGSCHWAGER M
JHA B
BAR K
FRANKENBERG D
Citation: M. Frankenbergschwager et al., MOLECULAR MECHANISM OF POTENTIALLY LETHAL DAMAGE REPAIR .1. ENHANCED FIDELITY OF DNA DOUBLE-STRAND BREAK REJOINING UNDER CONDITIONS ALLOWING POTENTIALLY LETHAL DAMAGE REPAIR, International journal of radiation biology, 67(3), 1995, pp. 277-285
Authors:
FRANKENBERGSCHWAGER M
JHA B
FRANKENBERG D
Citation: M. Frankenbergschwager et al., THE FIDELITY OF DNA DOUBLE-STRAND BREAK REJOINING IS ENHANCED UNDER PLD REPAIR CONDITIONS, Journal of cellular biochemistry, 1995, pp. 329-329
Authors:
GLASUNOV A
FRANKENBERGSCHWAGER M
FRANKENBERG D
Citation: A. Glasunov et al., INFLUENCE OF NON-HOMOLOGY BETWEEN RECOMBINING DNA-SEQUENCES ON DOUBLE-STRAND BREAK REPAIR IN SACCHAROMYCES-CEREVISIAE, MGG. Molecular & general genetics, 247(1), 1995, pp. 55-60
Authors:
FRANKENBERGSCHWAGER M
FRANKENBERG D
HARBICH R
BECKONERT S
Citation: M. Frankenbergschwager et al., EVIDENCE AGAINST THE OXYGEN-IN-THE-TRACK HYPOTHESIS AS AN EXPLANATIONFOR THE RADIOBIOLOGICAL LOW-OXYGEN ENHANCEMENT RATIO AT HIGH LINEAR-ENERGY-TRANSFER RADIATION, Radiation and environmental biophysics, 33(1), 1994, pp. 1-8
Citation: M. Frankenbergschwager et D. Frankenberg, SURVIVAL CURVES WITH SHOULDERS - DAMAGE INTERACTION, UNSATURATED BUT DOSE-DEPENDENT REJOINING KINETICS OR INDUCIBLE REPAIR OF DNA DOUBLE-STRAND BREAKS, Radiation research, 138(1), 1994, pp. 190000097
Authors:
FRANKENBERGSCHWAGER M
FRANKENBERG D
HARBICH R
Citation: M. Frankenbergschwager et al., RADIATION-INDUCED MITOTIC GENE CONVERSION FREQUENCY IN YEAST IS MODULATED BY THE CONDITIONS ALLOWING DNA DOUBLE-STRAND BREAK REPAIR, MUTATION RESEARCH, 314(1), 1994, pp. 57-66
Authors:
FRANKENBERG D
FRANKENBERGSCHWAGER M
HARBICH R
Citation: D. Frankenberg et al., MECHANISMS OF OXYGEN RADIOSENSITIZATION IN IRRADIATED YEAST .1. DNA DOUBLE-STRAND BREAKAGE, International journal of radiation biology, 64(5), 1993, pp. 511-521