Direct enzymatic repair of deoxyribonucleic acid single-strand breaks in dormant spores
With the alkaline sucrose gradient centnifugatton method, it was found that dormant spores of Clostridium botulinum subjected to 300 krads of gamma radiation showed a distinct decrease in deoxyribonucleic acid (DNA) fragment size, indicating induction of single-strand breaks (SSB). A two- to threefold difference in radiation resistance of spores of two strains of C. botulinum, 33A (37% survival dose STAD/sub 37/! = 110 krads) and 51B (D/sub 37/ = 47 krads), was accompanied by relatively larger DNA fragments (molecular weight 7.9 x 10/sup 7/ 1) obtained during extraction from the radiationresistant strain 33A and smaller DNA fragments (molecular weight 1.8 x 10/sup 7/) obtained under identical conditions from radiation-sensitive strain 51B. The apparent number of DNA SSB produced by 300 krads in strains 33A and 51B was 0.37 and 3.50, respectively, per 10/sup 8/ daltons of DNA. Addition of 0.02 M ethylenediaminetetraacetic acid (EDTA) to spore suspensions during irradiation doubled the apparent number of SSB in strain 33A but had no effect on strain 51B. In vivo, 0.02 M EDTA present during irradiation to 100 to 300 krads decreased survival of spores of 33A by about 30% but had little or no effect on 51B. Survival of 33A was also reduced by about 45% when the spores were irradiated while frozen in dry ice (-75 C) and, after irradiation, immediately exposed to 0.03 M EDTA for 1 h to inhibit repair in the dormant spores. These results suggest that the highly radiation-resistant strain 33A may be able to accomplish repair of SSB during irradiation or after irradiation under nonphysiological conditions, i.e., in the dormant state, This repair can be inhibited by EDTA. Sedimentation patterns show that DNA from spores of both strains 33A and 51B did not show any postirradiation repair during the first 6 h of germination, as opposed to Bacillus subtilis spores, which exhibit repair immediately after germination. These observations suggest the existence of direct repair in physiological dormant spores of strain 33A in the cryptobiotic resting state in the absence of germination. The repair seems to be similar to that of polynucleotide ligase activity shown to be operative in some vegetative cells. Apparently radiation-sensitive strains such as 51B and B. subtilis are generally poor in DNA repair enzyme activity under conditions of spore dormancy, which may aocount for the approximately threefold difference in radiation sensitivity or DNA fragility of different strains, or both. (auth)
- Research Organization:
- Illinois Inst. of Tech., Chicago
- NSA Number:
- NSA-29-029683
- OSTI ID:
- 4312399
- Journal Information:
- J. Bacteriol., v. 118, no. 1, pp. 129-138, Other Information: Orig. Receipt Date: 30-JUN-74
- Country of Publication:
- Country unknown/Code not available
- Language:
- English
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Related Subjects
*CLOSTRIDIUM BOTULINUM- BIOLOGICAL RADIATION EFFECTS
*DNA- STRAND BREAKS
*EDTA- RADIOSENSITIVITY EFFECTS
*SPORES- RADIOSENSITIVITY
*STRAND BREAKS- BIOLOGICAL REPAIR
BACILLUS SUBTILIS
ENZYMES
GAMMA RADIATION
PHOTON BEAMS
RADIOINDUCTION
RADIOSENSITIVITY EFFECTS
RESPONSE MODIFYING FACTORS
SEDIMENTATION
SURVIVAL CURVES RADIOINDUCTION