In vivo damage and recA-dependent repair of plasmid and chromosomal DNA in the radiation-resistant bacterium Deinococcus radiodurans.

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J Bacteriol. 1994 June; 176(12): 3508-3517

research-article

In vivo damage and recA-dependent repair of plasmid and chromosomal DNA in the radiation-resistant bacterium Deinococcus radiodurans.

M J Daly, L Ouyang, P Fuchs and K W Minton

Department of Pathology, F. Edward Hébert School of Medicine, Uniformed Services University of the Health Sciences, Bethesda, Maryland 20814-4799.

ABSTRACT

Deinococcus radiodurans R1 and other members of this genus shareextraordinary resistance to the lethal and mutagenic effectsof ionizing radiation. We have recently identified a RecA homologin strain R1 and have shown that mutation of the correspondinggene causes marked radiosensitivity. We show here that followinghigh-level exposure to gamma irradiation (1.75 megarads, thedose required to yield 37% of CFU for plateau-phase wild-typeR1), the wild-type strain repairs > 150 double-strand breaksper chromosome, whereas a recA-defective mutant (rec30) repairsvery few or none. A heterologous Escherichia coli-D. radioduransshuttle plasmid (pMD68) was constructed and found to be retainedin surviving D. radiodurans R1 and rec30 following any radiationexposure up to the highest dose tested, 3 megarads. Plasmidrepair was monitored in vivo following irradiation with 1.75megarads in both R1/pMD68 and rec30/pMD68. Immediately afterirradiation, plasmids from both strains contained numerous breaksand failed to transform E. coli. While irradiation with 1.75megarads was lethal to rec30 cultures, a small amount of supercoiledplasmid was regenerated, but it lacked the ability to transformE. coli. In contrast, wild-type cultures showed a cell divisionarrest of about 10 h, followed by exponential growth. Supercoiledplasmid was regenerated at normal levels, and it readily transformedE. coli. These studies show that D. radiodurans retains a heterologousplasmid following irradiation and repairs it with the same highefficiency as its chromosomal DNA, while the repair defect inrec30 prevents repair of the plasmid. Taken together, the resultsof this study suggest that plasmid DNA damaged in vivo in D.radiodurans is repaired by recA-dependent mechanisms similarto those employed in the repair of chromosomal DNA.

J Bacteriol. 1994 June; 176(12): 3508-3517

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