B.A. Bridges scite author profile

Mutants able to grow in the presence of 1.2 mg/ml streptomycin were isolated from Escherichia coli WP2 after exposure to ultraviolet light (UV) or in the absence of any treatment (spontaneous), and from a umuC derivative after exposure to UV and delayed photoreversal. These mutants, characterized as streptomycin resistant (Smr) or dependent (Smd), carry mutations in the rpsL gene. This gene was amplified using the polymerase chain reaction and sequenced. Mutations induced by UV were largely (76%) of the Smr phenotype, all of which were changes at an A:T base pair at codons 42 or 87. Mutations induced by UV plus delayed photoreversal in the non-UV-mutable umuC122 derivative of WP2 were exclusively of the Smd phenotype and all occurred at G:C base pairs at codons 41, 90 or 91. These results are consistent with current understanding of the mechanism of mutagenesis by UV and delayed photoreversal. A broader spectrum of mutations was seen in the spontaneous series including three-base deletions leading to amino acid loss (2 of codon 93, 1 of codon 87). Of particular note was the number of intragenic second site mutations in the spontaneous series, most if not all of which appeared to be silent with respect to streptomycin phenotype. It is necessary to postulate a high rate of formation of such mutations at some stage during the experiment. One possibility is that spontaneous mutation may often occur in bursts when an error correction mechanism (eg., proofreading, mismatch correction) is temporarily inactive.(ABSTRACT TRUNCATED AT 250 WORDS)

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Mutagenic repair in Escherichia coli: products of the recA gene and of the umuD and umuC genes act at different steps in UV-induced mutagenesis.

Bridges¹,

Woodgate²

1985

Proc. Natl. Acad. Sci. U.S.A.

147

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When excision-deficient Escherichia coli carrying umuC or umuD alleles were exposed to visible light several hours after ultraviolet irradiation, base-pair-substitution mutations were induced in these normally non-UV-mutable bacteria. It is argued that delayed photoreversal of pyrimidine dimers removes blocks to DNA replication and allows the "survival" and expression of misincorporated bases. A model for UV mutagenesis is proposed with two steps: (i) misincorporation opposite a photoproduct, which can be mediated directly by RecA protein, and (ii) bypass, only the latter process requiring umuD+ and umuC+ alleles. Basal levels of gene products are sufficient for at least some misincorporation events, although induced levels of umuD and umuC gene products are necessary for the bypass step. umuC bacteria containing the recA441 allele showed a greater yield of mutants, and those containing recA430 a reduced yield, following delayed photoreversal. The lexA51 allele (which results in constitutive derepression of RecA protein production) did not significantly alter the yield of mutants but caused them to appear marginally sooner in a recA441 umuC strain. These results emphasize that the nature of the RecA protein and not its concentration is paramount in determining the level of misincorporation. Experiments with recA441 umuC bacteria at 43°C and 30°C suggest that the misincorporation effect is unlikely to be attributable to cleavage of a DNA binding protein such as a repressor or a component of the polymerase complex. Moreover, misincorporation seems to occur without the need for induced synthesis of any other protein under recA control. Evidence consistent with these ideas has recently been published by Fersht and Knill-Jones (5), who showed that deoxynucleoside monophosphates, particularly dGMP, inhibited the proofreading activity of DNA polymerase III holoenzyme with a concomitant decrease in fidelity of DNA replication. In addition, RecA protein inhibited the proofreading activity of DNA polymerase III on synthetic templates containing mismatched 3' termini, and the inhibition was increased in the presence of dGMP or dAMP; it also decreased the fidelity of DNA replication in vitro. Even the presence of both purine deoxynucleoside monophosphates and RecA protein did not, however, enable DNA polymerase III to copy past pyrimidine dimers.We have dissected the process of UV mutagenesis into two steps (6). The first is a misincorporation event, presumably opposite a photoproduct such as a pyrimidine dimer, and the second requires the UmuC protein and allows DNA synthesis to continue beyond the misincorporation (bypass). When the pyrimidine dimer is removed by photoreversal some time after UV irradiation of a umuC strain, the bypass step is made redundant and mutations arising from misincorporations are able to "survive."In the present work, in which we use strains lacking excision repair, we show that umuD is also involved in the second step of dimer bypass and that induced levels of umuC and umuD gene product...

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Effect ofmutY andmutM/fpg-1 mutations on starvation-associated mutation inEscherichia coli: implications for the role of 7,8-dihydro-8-oxoguanine

1996

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MutY specifies a DNA glycosylase that removes adenines unnaturally paired with various bases including oxidized derivatives of guanine, such as 7,8-dihydro-8-oxoguanine (8-oxoG). The rate of mutation in starved Escherichia coli cells is markedly raised in mutY mutants defective in this glycosylase. As predicted, the mutations produced include G to T transversions. Bacteria carrying mutM or fpg-1 mutations (defective in Fapy glycosylase, which removes oxidized guanine residues such as 8-oxoG) show little or no enhancement of mutation under starvation conditions. When present together with mutY, however, mutM clearly further enhances the rate of mutation in starved cells. Plasmids resulting in overproduction of MutY or Fapy glycosylases reduce the rate of mutation in starved cells. We conclude that, in non-growing bacteria, oxidized guanine residues, including 8-oxoG, constitute an important component of spontaneous mutation. Addition of catalase to the plates did not reduce the mutant yield, indicating that extracellular hydrogen peroxide is not involved in the production of the premutational damage. Singlet oxygen, known to give rise to 8-oxoG, may be the ultimate oxidative species.

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An instance of clinical radiation morbidity and cellular radiosensitivity, not associated with ataxia-telangiectasia

Plowman¹,

Bridges²,

Arlett³

et al. 1990

103

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A 14-year-old boy received standard induction chemotherapy for acute lymphoblastic leukaemia followed by standard dose cranial radiation prophylaxis (18 Gy). Severe chemosensitivity and acute radiation reactions occurred and he died at 8 months from late radiation damage. In vitro radiobiological studies of the boy's fibroblasts in culture demonstrated an enhanced radiosensitivity indistinguishable from ataxia-telangiectasia (A-T) cells. However, unlike A-T cells, DNA synthesis following irradiation was inhibited in a normal manner. This patient represents yet another example of extreme radiosensitivity, and the possibility of clinical prediction in the future is discussed.

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B.A. Bridges

Ataxia telangiectasia: a human mutation with abnormal radiation sensitivity

Mutant sequences in the rpsL gene of Escherichia coli B/r: Mechanistic implications for spontaneous and ultraviolet light mutagenesis

Mutagenic repair in Escherichia coli: products of the recA gene and of the umuD and umuC genes act at different steps in UV-induced mutagenesis.

Effect ofmutY andmutM/fpg-1 mutations on starvation-associated mutation inEscherichia coli: implications for the role of 7,8-dihydro-8-oxoguanine

An instance of clinical radiation morbidity and cellular radiosensitivity, not associated with ataxia-telangiectasia

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