Rejoining of DNA double-strand breaks in X-irradiated CHO cells studied by constant- and graded-field gel electrophoresis.
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Rejoining of DNA double-strand breaks in X-irradiated CHO cells studied by constant- and graded-field gel electrophoresis. / Dahm-Daphi, Jochen; Dikomey, E.
in: INT J RADIAT BIOL, Jahrgang 69, Nr. 5, 5, 1996, S. 615-621.Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung
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TY - JOUR
T1 - Rejoining of DNA double-strand breaks in X-irradiated CHO cells studied by constant- and graded-field gel electrophoresis.
AU - Dahm-Daphi, Jochen
AU - Dikomey, E
PY - 1996
Y1 - 1996
N2 - Induction and repair of double-strand breaks (dsb) were measured in exponentially growing CHO-10A cells using the constant- and graded-field gel electrophoresis. Dsb repair was studied after an X-ray dose of 60 Gy. The repair curve obtained was biphasic with the respective half-times of tau 1 = 3.8 +/- 0.9 and tau 2 = 118 +/- 30 min. The number of non-reparable dsb was measured for X-ray doses up to 180 Gy and was found to be only a small fraction (14%) of all non-rejoinable breaks determined previously using the alkaline unwinding technique. The ratio of non-reparable dsb to the number of lethal events calculated from survival curves is 0.14:1. This result indicates that for CHO cells nonreparable dsb represent only a small fraction of lethal damage. This is in line with the cytogenetic observation that cell killing mainly results from mis-rejoined events (i.e. exchange aberrations, translocations, interstitial deletions). The kinetics of dsb rejoining were found to be independent of the size of the fragments involved (between 1 and 10 Mbp). In addition, the rejoining kinetics of DNA fragments <or = 1 Mbp did not show the formation of new DNA fragments with time after irradiation indicating the absence of programmed cell death in irradiated CHO cells.
AB - Induction and repair of double-strand breaks (dsb) were measured in exponentially growing CHO-10A cells using the constant- and graded-field gel electrophoresis. Dsb repair was studied after an X-ray dose of 60 Gy. The repair curve obtained was biphasic with the respective half-times of tau 1 = 3.8 +/- 0.9 and tau 2 = 118 +/- 30 min. The number of non-reparable dsb was measured for X-ray doses up to 180 Gy and was found to be only a small fraction (14%) of all non-rejoinable breaks determined previously using the alkaline unwinding technique. The ratio of non-reparable dsb to the number of lethal events calculated from survival curves is 0.14:1. This result indicates that for CHO cells nonreparable dsb represent only a small fraction of lethal damage. This is in line with the cytogenetic observation that cell killing mainly results from mis-rejoined events (i.e. exchange aberrations, translocations, interstitial deletions). The kinetics of dsb rejoining were found to be independent of the size of the fragments involved (between 1 and 10 Mbp). In addition, the rejoining kinetics of DNA fragments <or = 1 Mbp did not show the formation of new DNA fragments with time after irradiation indicating the absence of programmed cell death in irradiated CHO cells.
M3 - SCORING: Zeitschriftenaufsatz
VL - 69
SP - 615
EP - 621
JO - INT J RADIAT BIOL
JF - INT J RADIAT BIOL
SN - 0955-3002
IS - 5
M1 - 5
ER -