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radiodurans, radiation, google, scholar, micrococcus, dna, article, wildtype, moseley, repair, resistance, sensitive, beb, strain, mutant, content, ultraviolet, mtc, times, coli, access, privacy, cookies, copland, mtca, mtcb, uvsa, uvsb, escherichia, mutation, information, publish, search, mutants, mitomycinc, recombination, isolation, microbiol, gen, data, log, journal, research, genetics, ability, damaged, genes, strains, genetic, damage,

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         headline:Four mutants of Micrococcus radiodurans defective in the ability to repair DNA damaged by mitomycin-C, two of which have wild-type resistance to ultraviolet radiation
         description:Four genes concerned with the resistance of wild-type Micrococcus radiodurans to the lethal action of mitomycin-C (MTC), mtcA, mtcB, uvsA and uvsB, have been identified by isolating mutants sensitive to MTC. Two strains of M. radiodurans, 302 and 262 carrying mutations in mtcA and mtcB respectively, are between forty and sixty times as sensitive as the wild-type to MTC, only slightly more sensitive than the wild-type to ionizing (λ) radiation and have the same resistance as the wild-type to ultraviolet (u.v.) radiation. Strain 302 can be transformed at a high frequency to wild-type resistance to MTC with DNA from strain 262, and vice versa, indicating that mtcA and mtcB have different genetic locations. Two further strains of M. radiodurans, 303 and 263 having mutations in uvsA and uvsB respectively are only from four to eight times as sensitive as the wild-type to MTC, seven to thirteen times as sensitive to γ-radiation but between twenty to thirty-three times as sensitive to u.v. radiation. Strain 303 can be transformed with DNA from strain 263, or vice versa, to wild-type resistance to u.v. radiation, implying that uvsA and uvsB also have different genetic locations. M. radiodurans strain 301 which is mutant in both mtcA and uvsA, and strain 261 which is mutant in mtcB and uvsB are twenty to forty times as sensitive as the wild-type to both MTC and u.v. radiation and seven to ten times as sensitive to γ radiation. Neither mtcA and uvsA nor mtcB and uvsB are closely linked. None of the mutant strains is deficient in recombination, as measured by transformation. The repair of MTC-induced DNA damage in M. radiodurans must be different from that described for Escherichia coli.
         datePublished:
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         keywords:
            Radiation
            Escherichia Coli
            Recombination
            Mutant Strain
            Ultraviolet Radiation
            Plant Genetics and Genomics
            Human Genetics
            Microbial Genetics and Genomics
            Animal Genetics and Genomics
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      headline:Four mutants of Micrococcus radiodurans defective in the ability to repair DNA damaged by mitomycin-C, two of which have wild-type resistance to ultraviolet radiation
      description:Four genes concerned with the resistance of wild-type Micrococcus radiodurans to the lethal action of mitomycin-C (MTC), mtcA, mtcB, uvsA and uvsB, have been identified by isolating mutants sensitive to MTC. Two strains of M. radiodurans, 302 and 262 carrying mutations in mtcA and mtcB respectively, are between forty and sixty times as sensitive as the wild-type to MTC, only slightly more sensitive than the wild-type to ionizing (λ) radiation and have the same resistance as the wild-type to ultraviolet (u.v.) radiation. Strain 302 can be transformed at a high frequency to wild-type resistance to MTC with DNA from strain 262, and vice versa, indicating that mtcA and mtcB have different genetic locations. Two further strains of M. radiodurans, 303 and 263 having mutations in uvsA and uvsB respectively are only from four to eight times as sensitive as the wild-type to MTC, seven to thirteen times as sensitive to γ-radiation but between twenty to thirty-three times as sensitive to u.v. radiation. Strain 303 can be transformed with DNA from strain 263, or vice versa, to wild-type resistance to u.v. radiation, implying that uvsA and uvsB also have different genetic locations. M. radiodurans strain 301 which is mutant in both mtcA and uvsA, and strain 261 which is mutant in mtcB and uvsB are twenty to forty times as sensitive as the wild-type to both MTC and u.v. radiation and seven to ten times as sensitive to γ radiation. Neither mtcA and uvsA nor mtcB and uvsB are closely linked. None of the mutant strains is deficient in recombination, as measured by transformation. The repair of MTC-induced DNA damage in M. radiodurans must be different from that described for Escherichia coli.
      datePublished:
      dateModified:
      pageStart:331
      pageEnd:337
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         Radiation
         Escherichia Coli
         Recombination
         Mutant Strain
         Ultraviolet Radiation
         Plant Genetics and Genomics
         Human Genetics
         Microbial Genetics and Genomics
         Animal Genetics and Genomics
         Biochemistry
         general
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            name:H. J. R. Copland
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