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Constitutive expression of SOS functions and modulation of mutagenesis resulting from resolution of genetic instability at or near the recA locus of Escherichia coli (1982)

Witkin, Evelyn M. ; McCall, J. Owen ; Volkert, Michael R. ; [et al.]

Springer

Molecular genetics and genomics 185 (1982), S. 43-50

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ISSN: 1617-4623

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Cellular activities normally inducible by DNA damage (SOS functions) are expressed, without DNA damage, in recA441 (formerly tif-1) mutants of Escherichia coli at 42° C but not at 30° C. We describe a strain (SC30) that expresses SOS functions (including mutator activity, prophage induction and copious synthesis of recA protein) constitutively at both temperatures. SC30 is one of four stable subclones (SC strains) derived from an unstable recombinant obtained in a conjugation between a recA441 K12 donor and a recA + B/r-derived recipient. SC30 does not owe its SOS-constitutive phenotype to a mutation in the lexA gene (which codes the repressor of recA and other DNA damage-inducible genes), since it is lexA +. Each of the SC strains expresses SOS functions in a distinctively anomalous way. We show that the genetic basis for the differences in SOS expression among the SC strains is located at or very near the recA locus. We propose that resolution of genetic instability in this region, in the original recombinant, has altered the pattern of expression of SOS functions in the SC strains.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00333788

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Variable expression of the ssb-1 allele in different strains of Escherichia coli K12 and B: Differential suppression of its effects on DNA replication, DNA repair and ultraviolet mutagenesis (1981)

Lieberman, Howard B. ; Witkin, Evelyn M.

Springer

Molecular genetics and genomics 183 (1981), S. 348-355

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ISSN: 1617-4623

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary We have transduced the mutant allele ssb-1, which encodes a temperature-sensitive single-strand DNA binding protein (SSB), into several Escherichia coli strains, and have examined colony-forming ability, DNA replication, sensitivity to ultraviolet light (UV) and UV-induced mutability at the nonpermissive temperature. We have found: 1) that the degree of ssb-1-mediated temperature-sensitivity of colony-forming ability and of DNA replication is strain-dependent, resulting in plating efficiencies at 42° C (relative to 30° C) ranging from 100% to 0.002%; 2) that complete suppression of the temperature-sensitivity caused by ssb-1 occurs only on nutrient agar, and not in any other medium tested; 3) that strains in which ssb-1-mediated temperature-sensitivity is completely suppressed show moderate UV sensitivity and normal UV mutability at 30° C, but much more extreme UV sensitivity and drastically reduced UV mutability at 42° C; and 4) that defects in excision repair or in other Uvr+-dependent processes are not responsible for most of the UV sensitivity promoted by ssb-1. We discuss our results in relation to the known properties of SSB and its possible role in the induction of DNA damage-inducible (SOS) functions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00270639

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DNA degradation, UV sensitivity and SOS-mediated mutagenesis in strains of Escherichia coli deficient in single-strand DNA binding protein: Effects of mutations and treatments that alter levels of exonuclease V or RecA protein (1983)

Lieberman, Howard B. ; Witkin, Evelyn M.

Springer

Molecular genetics and genomics 190 (1983), S. 92-100

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ISSN: 1617-4623

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Certain strains suppress the temperature-sensitivity caused by ssb-1, which encodes a mutant ssDNA binding protein (SSB). At 42°C, such strains are extremely UV-sensitive, degrade their DNA extensively after UV irradiation, and are deficient in UV mutability and UV induction of recA protein synthesis. We transduced recC22, which eliminates Exonuclease V activity, and recAo281, which causes operator-constitutive synthesis of recA protein, into such an ssb-1 strain. Both double mutants degraded their DNA extensively at 42°C after UV irradiation, and both were even more UV-sensitive than the ssb-1 single mutant. We conclude that one or more nucleases other than Exonuclease V degrades DNA in the ssb recC strain, and that recA protein, even if synthesized copiously, can function efficiently in recombinational DNA repair and in control of post-UV DNA degradation only if normal SSB is also present. Pretreatment with nalidixic acid at 30°C restored normal UV mutability at 42°C, but did not increase UV resistance, in an ssb-1 strain. Another ssb allele, ssb-113, which blocks SOS induction at 30°C, increases spontaneous mutability more than tenfold. The ssb-113 allele was transduced into the SOS-constitutive recA730 strain SC30. This double mutant expressed the same elevated spontaneous and UV-induced mutability at 30°C as the ssb + recA730 strain, and was three times more UV-resistant than its ssb-113 recA +parent. We conclude that ssb-1 at 42°C and ssb-113 at 30°C block UV-induced activation of recA protease, but that neither allele interferes with subsequent steps in SOS-mediated mutagenesis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00330329

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