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1.
Prolonged exposures to misonidazole (MISO) in vitro under hypoxic conditions result in radiosensitization which is characterized by a decrease in the size of the radiation survival curve shoulder for cells irradiated under hypoxic or aerobic conditions after drug removal. Although intracellular glutathione (GSH) was depleted during hypoxic exposures to MISO, this could not account for the dose-additive radiosensitization (decrease in shoulder size) since GSH depletion by diethylmaleate had no effect on the sensitivity of cells irradiated in air. The alkaline elution assay was used to measure DNA strand breaks and their repair after exposure to MISO, graded doses of X rays, and the combination of MISO pretreatment with X rays. The elution rate of DNA from irradiated cells increased linearly with X-ray dose, with and without MISO pretreatment. However, the DNA elution rates measured after MISO pretreatment were greater by a constant amount at all X-ray doses greater than 1 Gy. In terms of both cell survival and DNA elution rate, MISO-pretreated cells behaved as though they had received an extra 1.5 Gy. Although the initial damage after X rays was greater in MISO-pretreated cells, there was no effect of MISO pretreatment on the rate of repair of radiation-induced DNA strand breaks. The agreement between the differences in survival levels and DNA elution rates for irradiated control and MISO-pretreated cells and absence of an effect on DNA repair rates suggest that the pretreatment sensitization is due to an additive interaction of damage at the DNA level.  相似文献   

2.
It has been suggested that DNA strand breaks are the molecular lesions responsible for radiation-induced lethality and that their repair is the basis for the recovery of irradiated cells from sublethal and potentially lethal damage. EM9 is a Chinese hamster ovary cell line that is hypersensitive to killing by X rays and has been reported to have a defect in the rate of rejoining of DNA single-strand breaks. To establish the importance of DNA strand-break repair in cellular recovery from sublethal and potentially lethal X-ray damage, those two parameters, recovery from sublethal and potentially lethal damage, were studied in EM9 cells as well as in EM9's parental repair-proficient strain, AA8. As previously reported, EM9 is the more radiosensitive cell line, having a D0 of 0.98 Gy compared to a D0 of 1.56 Gy for AA8 cells. DNA alkaline elution studies suggest that EM9 cells repair DNA single-strand breaks at a slower rate than AA8 cells. Neutral elution analysis suggests that EM9 cells also repair DNA double-strand breaks more slowly than AA8 cells. All of these data are consistent with the hypothesis that DNA strand-break ligation is defective in EM9 cells and that this defect accounts for increased radiosensitivity. The kinetics and magnitude of recovery from sublethal and potentially lethal damage, however, were similar for both EM9 and AA8 cells. Six-hour recovery ratios for sublethal damage repair were found to be 2.47 for AA8 cells and 1.31 for EM9 cells. Twenty-four-hour recovery ratios for potentially lethal damage repair were 3.2 for AA8 and 3.3 for EM9 cells. Both measurements were made at approximately equitoxic doses. Thus, the defect in EM9 cells that confers radiosensitivity and affects DNA strand-break rejoining does not affect sublethal damage repair or potentially lethal damage repair.  相似文献   

3.
The time scale for rejoining of radiation-induced deoxyribonucleic acid (DNA) single-strand breaks was measured in the presence and absence of oxygen. The involvement of DNA polymerase I in this repair process was studied. Formation and rejoining of DNA strand breaks were measured in lambda DNA infecting lysogenic pol(+) and polA1 strains of Escherichia coli irradiated by 4 MeV electrons under identical conditions. Irradiation and transfer to alkaline detergent could be completed in less than 180 ms. The initial yields of DNA strand breaks were identical in pol(+) and polA1 host cells and four- to fivefold higher in the presence of oxygen than in nitrogen anoxia. Evidence for the existence of a very fast repair process, independent of DNA polymerase I, was not found, since no rejoining of radiation-induced DNA strand breaks was observed during incubation from 45 ms to 3 s. In pol(+) host cells most of the strand breaks produced in the presence of oxygen were rejoined within the first 30 to 40 s of incubation, whereas no rejoining could be detected within the same period of time in anoxic cells. Since no rejoining of broken lambda DNA molecules was observed in polA1 host cells, it is concluded that the synthetase activity of DNA polymerase I is involved in the rejoining of DNA breaks induced by radiation in the presence of oxygen.  相似文献   

4.
Chinese hamster ovary cells were irradiated with 250 kVp X rays and analyzed for the presence of DNA double-strand breaks using either polycarbonate filter elution or pulsed-field agarose gel electrophoresis at neutral pH. Reduction in DNA length detected by filter elution was produced as a nonlinear function of increasing radiation dose, with a quasi-threshold at low total dose, and as a first-order function of increasing radiation dose as detected by gel electrophoresis. The quasi-threshold observed with filter elution was eliminated when nuclei were isolated from irradiated cells and their chromatin relaxed in a buffer containing low-molarity monovalent cation prior to analysis by filter elution. The results suggest either that the chemical structure of the DNA double-strand breaks produced by low-LET radiation necessitates a DNA relaxation step before they can be detected accurately by filter elution, or that at low total radiation dose a DNA complex forms on the polycarbonate filter.  相似文献   

5.
Murine mammary carcinoma cells (line 67) were grown in unfed cultures for up to 9 days. In cultures (day 2-3) in which cells were proliferatively active and in day 3-5 (transition) cells, a large fraction of nuclear DNA was retained on polycarbonate filters when assayed by the alkaline filter elution technique. In contrast, the fraction of DNA retained on filters was significantly reduced for nonproliferating (Q, quiescent) cells from unfed 7-9 day cultures. The increase in endogenous DNA breaks followed both the decrease in proliferative state and clonogenicity in these cells. When day 7 Q cells were refed these endogenous DNA breaks were removed with a half-time of about 2.5 h. When the cells were exposed to X-irradiation and the integrity of their nuclear DNA measured by the alkaline filter elution assay, as much as a 2-fold greater frequency of radiation-induced DNA breaks was produced in Q versus P cells. DNA breaks were also removed from irradiated Q cells at a rate which was 0.23 that observed in P cells. We suggest that the depressed capacity for DNA damage removal in Q cells is responsible for their greater radiosensitivity, and the impaired DNA damage repair is probably due to a reduced level of energy sources in these unfed Q cell cultures.  相似文献   

6.
We have assessed the effects of two radiomodifying conditions, glutathione (GSH) depletion and hypoxia, on the formation and repair of radiation-induced chromatin damage, specifically DNA-protein cross-links (DPC). As measured by a nitrocellulose filter-binding assay, untreated V79 cells contain a low level of DPC (1-1.5% of the cellular DNA). The background level of DPC is elevated in cells treated with L-buthionine sulfoximine (BSO), in hypoxic cells, and in cells treated with BSO and made hypoxic (2.98%, 2.82%, and 7.71%, respectively). The dose response for production of radiation-induced DPC is approximately 6.0% DNA bound per 100 Gy for cells irradiated in air, and the dose response is not significantly different for BSO-treated cells but increases by a factor of about 1.4 for hypoxic cells and 1.7 for BSO-pretreated hypoxic cells. DPC were also assayed by alkaline elution with or without proteinase K treatment. By this analysis, the yield of DPC appears to be elevated in irradiated hypoxic and irradiated GSH-depleted cells. It is not possible to assay for background DPC alone in unirradiated cells by alkaline elution. Cells not exposed to BSO repair 70-80% of the radiation-induced DPC in 4 h. BSO-treated cells are considerably less efficient in repair of DPC. As analyzed by alkaline elution, GSH depletion had little or no effect on the yield of radiation-induced single-strand breaks (SSB) but slowed their repair. The data suggest that depletion of GSH impairs an enzyme system(s) responsible for the turnover of both background and radiation-induced DPC and that hypoxia elevates both the background level of DPC and the ratio of radiation-induced DPC to SSB.  相似文献   

7.
Incubation of isolated Chinese hamster ovary cell nuclei, equilibrated in an atmosphere containing 2% O2, with glutathione, cysteine, or cysteamine resulted in a decrease in the number of X-ray-induced DNA double-strand breaks (DSBs), determined by pH 9.0 filter elution. In the absence of exogenous thiol, no sensitization was observed with the addition of N-ethylmaleimide, indicating that endogenous thiols were not present at significant levels. Protection by 0.3 mM glutathione was not enhanced by the addition of exogenous glutathione S-transferases or by glutathione peroxidase. The data were analyzed according to a simple competition model with various hypotheses. Cysteamine was more than an order of magnitude more effective than the other thiols tested, on a molar basis, in preventing DSB formation. Depending on the hypothesis used to evaluate the data, glutathione was either much less effective, on a molar basis, in preventing the bulk of the DSBs or was capable of preventing only approximately 55% of the damage, regardless of concentration. These data suggest that natural thiols other than glutathione may contribute to cellular radioprotection even if their concentration is much lower than that of glutathione. The data also suggest that despite the relative inefficiency of glutathione as a radioprotector, some areas of oxygenated tissues--where the oxygen tension falls below 2%--may be protected by glutathione concentrations in the physiological range of 3-20 mM.  相似文献   

8.
The initial aim of this study was to investigate how charge and other chemical properties of some radical scavengers influence the radiation-induced formation of 7,8-dihydro-8-oxo-2'-deoxyguanosine (8-oxo-dG) in two model systems. The target molecule, deoxyguanosine (dG), was either organized in the DNA-helix form or present as a free nucleoside in an aerated aqueous phosphate buffer. Samples were irradiated with 137Cs gamma rays, alone or in the presence of different thiols, alcohols or ascorbate with net charges from -1 to +1. The formation of 8-oxo-dG was assayed with reverse-phase HPLC coupled to an electrochemical detector. In the absence of radical scavengers, the radiation-induced formation of 8-oxo-dG in DNA was extensive, and the ratio for formation of 8-oxo-dG was 20-fold higher for DNA compared to dG. The yields of 8-oxo-dG in DNA and dG were 7.7 x 10(-3) micromol J(-1) and 3.8 x 10(-4) micromol J(-1), respectively. Yield-dose plots showed that the efficiency of the positively charged thiol cysteamine to counteract the radiation-induced formation of 8-oxo-dG in DNA was significantly (P < 0.001) greater compared to the uncharged or negatively charged thiols. Uncharged thiols were significantly (0.001 < P < 0.05) more effective in protecting DNA compared to negatively charged thiols. In contrast to the protection against oxidative damage provided by thiols and ascorbate when they were present during irradiation of DNA, the formation of 8-oxo-dG was significantly increased when these compounds were present during irradiation of dG in solution. Compared to the irradiated control, the increase was 11- to 116-fold for thiols and ascorbate, respectively. The enhanced oxidative damage of dG observed in the presence of ascorbate or thiols suggests that secondarily formed radicals from thiols or ascorbate may react with dG, or that transformation of different primary sites of damage on dG to 8-oxo-dG is enhanced.  相似文献   

9.
Bromodeoxyuridine (BrdU) competes with thymidine (TdR) for incorporation into DNA of exponentially growing V79-171 cells. Such cells show an enhancement of the radiation response as determined by clonogenic survival and DNA damage measured by filter elution techniques after doses up to 15 Gy. The degree of radiosensitization for both survival and rates of alkaline and neutral elution are dependent on percentage BrdU substitution and independent of whether BrdU is in one strand only (monofilar) or both strands (bifilar) of the DNA duplex: e.g., for 16% BrdU substitution distributed either monofilarly or partially bifilarly, there is an enhancement factor for Do of 1.55. At this percentage substitution, the enhancement factor for the rate of alkaline elution is 1.75 and that for the rate of neutral elution is 1.54. The greater the percentage BrdU substitution, the larger was the enhancement ratio for survival and radiation-induced strand breaks in both monofilarly and bifilarly substituted cells. The increase in cell radiosensitivity caused by BrdU substitution shows a better correlation with the increase in radiation-induced double-strand breaks than with the increase in radiation-induced single-strand breaks.  相似文献   

10.
Single-strand breaks are a major form of DNA damage caused by ionizing radiation, and measurement of strand breaks has long been used as an index of overall cellular DNA damage. Most assays for DNA single-strand breaks in cells rely on measuring fractionated DNA samples following alkali denaturation. Quantification is usually achieved by prelabeling cells with radioactive DNA precursors; however, this is not possible in the situation of nondividing cells or freshly isolated tissue. It has previously been demonstrated that the alkali unwinding assay of DNA strand breaks can be quantified by blotting the recovered DNA on nylon membranes and hybridizing with radiolabeled sequence-specific probes. We report here improvements to the technique, which include hot alkali denaturation of DNA samples prior to blotting and the use of carrier DNA that is non-complementary to the radiolabeled probe. Our method allows both single- and double-stranded DNA to be quantified with the same efficiency, thereby improving the sensitivity and reproducibility of the assay, and allows calibration for determination of absolute levels of DNA strand breaks in cells. We also used this method to assay radiation-induced DNA strand breaks in freshly isolated human leukocytes and found them to have a strand break induction rate of 1815 strand breaks/cell/Gy.  相似文献   

11.
Dronamraju R  Mason JM 《PloS one》2011,6(9):e25439
Chromatin structure regulates the dynamics of the recognition and repair of DNA double strand breaks; open chromatin enhances the recruitment of DNA damage response factors, while compact chromatin is refractory to the assembly of radiation-induced repair foci. MU2, an orthologue of human MDC1, a scaffold for ionizing radiation-induced repair foci, is a widely distributed chromosomal protein in Drosophila melanogaster that moves to DNA repair foci after irradiation. Here we show using yeast 2 hybrid screens and co-immunoprecipitation that MU2 binds the chromoshadow domain of the heterochromatin protein HP1 in untreated cells. We asked what role HP1 plays in the formation of repair foci and cell cycle control in response to DNA damage. After irradiation repair foci form in heterochromatin but are shunted to the edge of heterochromatic regions an HP1-dependent manner, suggesting compartmentalized repair. Hydroxyurea-induced repair foci that form at collapsed replication forks, however, remain in the heterochromatic compartment. HP1a depletion in irradiated imaginal disc cells increases apoptosis and disrupts G2/M arrest. Further, cells irradiated in mitosis produced more and brighter repair foci than to cells irradiated during interphase. Thus, the interplay between MU2 and HP1a is dynamic and may be different in euchromatin and heterochromatin during DNA break recognition and repair.  相似文献   

12.
In experiments utilizing the alkaline filter elution assay for radiation-induced DNA damage we observed an unexpected dependence of hypoxic dose-response curves on the length of time V79 cells were in exponential growth between subculturing and irradiation. Dose-response curves for DNA from cells irradiated in air were identical regardless of whether the exponential-phase cells had been subcultured 24 or 48 h prior to irradiation, but cells irradiated in hypoxia 24 h after subculture displayed a dose-response curve for DNA damage which was two times steeper than that obtained for cells irradiated in hypoxia 48 h after subculture. Possible mechanisms for this effect are discussed.  相似文献   

13.
Filter elution was used to compare X-ray-induced DNA single- and double-strand breaks in proliferating (P) and quiescent (Q) cells of the 66 and 67 mouse mammary tumor lines. There was no difference either between cell type or between growth states in the amount of single-strand breaks as defined by elution at pH 12.2. In contrast, Q cells appeared to sustain a much larger amount of double-strand break damage per Gray than P cells, when the damage was measured by elution at either pH 7.2 or pH 9.6. Experiments which combined centrifugal elutriation with pH 7.2 elution demonstrated that G1-P cells were similar to Q (greater than or equal to 95% G1) cells in the induction of elution-detectable double-strand breaks, while the S-phase enriched fractions sustained less damage than G1-P, Q, or asynchronous P populations. Studies in which P populations were pulse labeled with [14C]thymidine confirmed this finding. Mathematical analysis of the elution kinetics of irradiated P, Q, and S-phase cells supports a model in which the complex elution profiles observed for P cells could be explained as the sum of the one-component exponential elution profiles of G1- and S-phase subpopulations. Also, the correlation between damage measured by pH 7.2 elution and cell survival was tested by examining the dose response for stimulated 66 cells (St4), which like Q cells are greater than or equal to 95% in G1 but are more resistant to X-ray-induced cytotoxicity than are the 66 Q cells. However, the induction of double-strand breaks in St4 cells was identical to that in Q cells. Thus we conclude that there is not necessarily a correlation between the amount of elution-detectable X-ray-induced double-strand breaks and cell survival.  相似文献   

14.
The repair of DNA alkylation damage in human cells is poorly understood. We have adapted the alkaline elution technique for use with human peripheral blood lymphocytes in culture. We have also established conditions necessary for short-term culture of human lymphocytes. Lymphocyte growth which can be maintained for up to 30 days is dependent upon irradiated TK6 feeder cells and T-cell growth factor (crude TCGF). The amount of damage induced by a given concentration of methyl methane-sulfonate (MMS) is dependent upon cell number per ml of growth medium. The DNA damage measured, in lymphocytes, by alkaline elution is a composite of single strand breaks and alkali-labile lesions. Repair of this damage after appropriate recovery periods is also detectable. The irradiated feeder TK6 cells do not contribute to the number of strand breaks detected or the amount of recovery after treatment. This method offers a quick and reproducible means of detecting DNA damage and repair in human T-lymphocytes.  相似文献   

15.
Radiation-induced formation of 7,8-dihydro-8-oxo-2'-deoxyguanosine (8-oxo-dG) and DNA strand breaks was studied in cultured cells with normal or modified chromatin structure. Human fibroblasts were irradiated as cellular monolayers (intact cells), nuclear monolayers (permeabilized cells with intact chromatin structure), and nucleoid monolayers (permeabilized and salt-treated cells with histone-free DNA). 8-oxo-dG was assayed with reverse-phase HPLC coupled to an electrochemical detector and strand breaks with the alkali unwinding assay. Depletion of low-molecular-weight nuclear components increased the radiation-induced formation of 8-oxo-dG fivefold compared to twofold for the formation of strand breaks. Removal of both low-molecular-weight components and histones increased the yield of 8-oxo-dG 46-fold and the yield of strand breaks 43-fold. Removal of only the histones thus leads to a two times greater increase in the yield of strand breaks compared to 8-oxo-dG. Addition of radical scavengers to nuclear and nucleoid monolayers provided a significantly better protection against the formation of 8-oxo-dG relative to the formation of strand breaks. These results suggest that in intact cells, 8-oxo-dG is preferentially formed in histone-free structures of chromatin, indicating a larger role for the indirect effect of radiation in the formation of 8-oxo-dG than in the formation of strand breaks.  相似文献   

16.
The role of glutathione (GSH) in the rejoining of radiation-induced single-strand DNA breaks (ssb) was studied in human fibroblast cultures sensitized to radiation by a 30 min treatment with 1 mM misonidazole (MISO). Hypoxically irradiated cells, deficient in GSH, either inherently, or due to a 16 h incubation with 1 mM buthionine sulphoximine (BSO), rejoined the breaks after MISO treatment at a lower rate and to a lesser extent than did GSH-proficient cells. Without MISO treatment, the hypoxically induced ssb were rejoined in the GSH-deficient cells as effectively as in the proficient cells. It is concluded that a large proportion of the breaks which arise after hypoxic irradiation in the presence of MISO are of a different type to those which arise in the absence of the drug, and require a particular GSH-dependent, enzymatic repair system. This requirement for rejoining in hypoxically irradiated, MISO-treated cells is similar to that seen earlier in MISO-untreated, oxically irradiated cells, and suggests that the ssb induced by radiation in the presence of MISO or oxygen are of a similar nature.  相似文献   

17.
The genotoxic potential of the beta-adrenergic blocker penbutolol was assessed using the Ames and HGPRT tests, unscheduled DNA synthesis (UDS) and alkaline elution assays. In the Ames test, penbutolol was tested for cytotoxicity and genotoxic activity in concentration ranges of 0.8-500 micrograms/plate and 0.1-125 micrograms/ml in the HGPRT, UDS and alkaline elution assays. In the Ames test penbutolol showed significant toxicity above 500 micrograms/plate. In the mammalian cells (V79) used for the HGPRT test and A459 cells used for alkaline elution and UDS assays, penbutolol was cytotoxic at concentrations above 30 micrograms/ml. In another series of experiments, male Wistar rats were treated i.p. with penbutolol (1, 10 and 100 mg/kg) and after 2 h liver nuclei were isolated and formation of single DNA-strand breaks was measured. The results of the present study demonstrate the absence of genotoxic activity of penbutolol in the 5 strains of Salmonella typhimurium (TA98, TA100, TA1535, TA1537 and TA1538) and in the strain of Escherichia coli WP2 uvrA in the presence or absence of metabolic activation. In V79 cells, penbutolol showed no mutagenic effects at the HGPRT locus in the presence or absence of metabolic activation. Additionally, no significant incorporation of [3H]thymidine into the DNA in the UDS test or formation of DNA-strand breaks in the alkaline elution assay was detected in the non-toxic concentration range of penbutolol with or without metabolic activation. Furthermore, penbutolol did not cause DNA damage in liver nuclei isolated from penbutolol-treated rats.  相似文献   

18.
Daunorubicin, an anticancer drug, induces primarily mammary adenocarcinoma in Sprague-Dawley rats. We investigated daunorubicin-induced DNA lesions in enzymatically isolated mammary epithelial cells and hepatocytes from 7-8-week-old female Sprague-Dawley rats. Differences were observed in the type and quantity of DNA lesions in mammary epithelial cells and hepatocytes as determined by alkaline elution analysis. DNA single-strand breaks and proteinase-K-sensitive cross-linking lesions were observed in mammary epithelial cells. Hepatocytes appeared to have significantly lower relative frequencies of single-strand breaks than mammary epithelial cells when treated with daunorubicin (1.5-10.0 micrograms/10(6) cells). Hepatocytes displayed two types of cross-link. One form was sensitive to proteinase-K digestion, whereas the other form was insensitive. The metabolism of daunorubicin to the aglycone metabolites was substantially lower in mammary cells than in hepatocytes. However, the total uptake of the drug was similar in these two cell types. A metabolite, 7-deoxydaunorubicinol aglycone, was unable to induce single-strand breaks or cross-linking lesions in mammary epithelial cells. Both cell types exhibited a similar ability to repair radiation-induced single-strand breaks of DNA. However, the mammary cells may be less able to repair daunorubicin-mediated DNA damage. These results revealed that mammary epithelial cells are less able to metabolize the active mutagen/carcinogen, daunorubicin, than are hepatocytes. This, coupled with the observations of greater apparent DNA damage in mammary cells, may be of primary importance in the drug-induced carcinogenicity in the rat mammary tissue.  相似文献   

19.
We investigated the role of initial DNA and chromosome damage in determining the radiosensitivity difference between the variant murine leukemic lymphoblast cell lines L5178Y-S (sensitive) and L5178Y-R (resistant) and the difference in cell cycle-dependent variations in radiosensitivity of L5178Y-S cells. We measured initial DNA damage (by the neutral filter elution method) and chromosome damage (by the premature chromosome condensation method) and compared them with survival (measured by cloning) for both cell lines synchronized in G1 or G2 phase of the cell cycle (by centrifugal elutriation) and irradiated with low doses of X rays (up to 10 Gy). The initial yield of DNA and chromosome damage in G2 L5178Y-S cells was almost twice that in G1 L5178Y-S cells and G1 or G2 L5178Y-R cells. In all cases DNA damage expressed as relative elution corresponded with chromosome damage (breaks in G1 chromosomes, breaks and gaps in G2 chromosomes). Also we found that the initial DNA and chromosome damage did not determine cell age-dependent radiosensitivity variations in L5178Y-S cells, as there was less initial damage in the more sensitive G1 phase than in the G2 phase. L5178Y-R cells showed only small changes in survival or initial yield of DNA and chromosome damage throughout the cell cycle. Because survival and initial damage in sensitive and resistant cells irradiated in G2 phase correlated, the difference in radiosensitivity between L5178Y-S and L5178Y-R cells might be determined by initial damage in G2 phase only.  相似文献   

20.
The effect of BrdU incorporation on cell radiosensitivity as well as on the induction of DNA double-strand breaks (DSB) and chromosome damage by radiation was studied in CHO cells. Induction of DNA DSB was measured by the nonunwinding filter elution technique and damage at the chromosome level was visualized and scored in G1 cells using the technique of premature chromosome condensation. The results indicated an increase in the radiosensitivity of cells grown in the presence of BrdU. Although sensitization was observed both in cells irradiated in the exponential phase and in cells irradiated in the plateau phase of growth, the degree of sensitization was greater in exponentially growing cells for the same degree of thymidine replacement by BrdU in the DNA. It is hypothesized that this indicates the possible importance of chromatin structure at the time of irradiation and/or the importance of chromatin conformation changes after irradiation in the expression of radiation-induced potentially lethal damage in cells containing BrdU. Incorporation of BrdU affected both the slope and the width of the shoulder of the survival curve and increased the induction of DNA and chromosome damage per unit absorbed dose. The increase observed in the slope of the survival curve was quantitatively similar to the increase observed in damage induction at the DNA and the chromosome level, suggesting a cause-effect relationship between these phenomena. Reduction in the width of the shoulder did not correlate with the increase in the induction of DNA and chromosome damage, suggesting that different phenomena, probably related to enhanced fixation of radiation-induced potentially lethal damage in cells containing BrdU, underlie its modulation.  相似文献   

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