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1.
K. R. Tindall  J. Stein    F. Hutchinson 《Genetics》1988,118(4):551-560
Mutations in the cI (repressor) gene were induced by gamma-ray irradiation of lambda phage and of prophage, and 121 mutations were sequenced. Two-thirds of the mutations in irradiated phage assayed in recA host cells (no induction of the SOS response) were G:C to A:T transitions; it is hypothesized that these may arise during DNA replication from adenine mispairing with a cytosine product deaminated by irradiation. For irradiated phage assayed in host cells in which the SOS response had been induced, 85% of the mutations were base substitutions, and in 40 of the 41 base changes, a preexisting base pair had been replaced by an A:T pair; these might come from damaged bases acting as AP (apurinic or apyrimidinic) sites. The remaining mutations were 1 and 2 base deletions. In irradiated prophage, base change mutations involved the substitution of both A:T and of G:C pairs for the preexisting pairs; the substitution of G:C pairs shows that some base substitution mechanism acts on the cell genome but not on the phage. In the irradiated prophage, frameshifts and a significant number of gross rearrangements were also found.  相似文献   

2.
Plasmid DNA carrying the adenosine 3',5'-cyclic monophosphate receptor protein (crp) gene of Escherichia coli was irradiated, in solution, with X-rays, and the mutations produced in the crp gene were assayed by transforming the recipient E. coli cells. Ninety-six mutant clones were isolated, and mutational changes were determined by DNA sequencing. Of the 92 mutations thus detected, 74 represented base substitution mutations and the remaining 18 were frameshifts. The base substitutions included 56 G:C to A:T transitions, 10 G:C to T:A transversions and 7 G:C to C:G transversions. An A:T to G:C transition was found only once, and neither an A:T to T:A nor an A:T to C:G transversion was detected. The frameshift mutations consisted of 11 one-base deletions and 7 one-base insertions. Accordingly, G:C to A:T transition was the predominant type of mutation, which constituted 76% (56/74) of the total base substitutions and 60% (56/92) of all detected mutations. Furthermore, of the 56 transitions, about three-quarters (41 clones) clustered at an identical site, a cytosine residue at the 706 position, demonstrating that this site is a distinct hot spot for X-ray mutagenesis. These results raise the possibility that radiation-induced mutations may not necessarily occur randomly, at least in certain cases.  相似文献   

3.
Wang J  Yu S  Jiao S  Lv X  Ma M  Zhu BZ  Du Y 《Mutation research》2012,729(1-2):16-23
Tetrachlorohydroquinone (TCHQ) is a major toxic metabolite of the widely used wood preservative, pentachlorophenol (PCP), and it has also been implicated in PCP genotoxicity. However, the underlying mechanisms of genotoxicity and mutagenesis induced by TCHQ remain unclear. In this study, we examined the genotoxicity of TCHQ by using comet assays to detect DNA breakage and formation of TCHQ-DNA adducts. Then, we further verified the levels of mutagenesis by using the pSP189 shuttle vector in A549 human lung carcinoma cells. We demonstrated that TCHQ causes significant genotoxicity by inducing DNA breakage and forming DNA adducts. Additionally, DNA sequence analysis of the TCHQ-induced mutations revealed that 85.36% were single base substitutions, 9.76% were single base insertions, and 4.88% were large fragment deletions. More than 80% of the base substitutions occurred at G:C base pairs, and the mutations were G:C to C:G, G:C to T:A or G:C to A:T transversions and transitions. The most common types of mutations in A549 cells were G:C to A:T (37.14%) and A:T to C:G transitions (14.29%) and G:C to C:G (34.29%) and G:C to T:A (11.43%) transversions. We identified hotspots at nucleotides 129, 141, and 155 in the supF gene of plasmid pSP189. These mutation hotspots accounted for 63% of all single base substitutions. We conclude that TCHQ induces sequence-specific DNA mutations at high frequencies. Therefore, the safety of using this product would be carefully examined.  相似文献   

4.
Carcinogenic Cr(VI) compounds were previously found to induce amino acid/glutathione-Cr(III)-DNA crosslinks with the site of adduction on the phosphate backbone. Utilizing the pSP189 shuttle vector plasmid we found that these ternary DNA adducts were mutagenic in human fibroblasts. The Cr(III)-glutathione adduct was the most potent in this assay, followed by Cr(III)-His and Cr(III)-Cys adducts. Binary Cr(III)-DNA complexes were only weakly mutagenic, inducing a significant response only at a 10 times higher number of adducts compared with Cr(III)-glutathione. Single base substitutions at the G:C base pairs were the predominant type of mutations for all Cr(III) adducts. Cr(III), Cr(III)-Cys and Cr(III)-His adducts induced G:C-->A:T transitions and G:C-->T:A transversions with almost equal frequency, whereas the Cr(III)-glutathione mutational spectrum was dominated by G:C-->T:A transversions. Adduct-induced mutations were targeted toward G:C base pairs with either A or G in the 3' position to the mutated G, while spontaneous mutations occurred mostly at G:C base pairs with a 3' A. No correlation was found between the sites of DNA adduction and positions of base substitution, as adducts were formed randomly on DNA with no base specificity. The observed mutagenicity of Cr(III)-induced phosphotriesters demonstrates the importance of a Cr(III)-dependent pathway in Cr(VI) carcinogenicity.  相似文献   

5.
In targeted mutagenesis of lambda phage by ultraviolet light, the mutations are caused by radiation-induced lesions in the phage DNA. Of 62 mutations in the lambda cI gene that were sequenced, 41 (63%) of the targeted mutations were transitions, with similar numbers of C X G to T X A and T X A to C X G base changes. The remaining 21 mutations were about equally divided among eight transversions, seven frameshifts (5 additions and 2 deletions), and six double events with either two nearby base changes or a base change and a nearby frameshift. Of the 62 mutations, 60 could be associated with -Pyr-Pyr- sequences in the DNA, sites of likely photoproducts. For more information on this point, lambda phage were irradiated with 313 nm light in the presence of acetophenone, for which the major photoproduct is reported to be the thymine-thymine cyclobutyl dimer, with no measurable Pyr(6-4)Pyo photoproducts. Of 22 mutations sequenced, 19 were transversions and only one was a transition, permitting the conclusion that thymine-thymine cyclobutyl dimers are not the primary cause of ultraviolet light-induced transitions. A consideration of all the data strongly suggests that Pyr(6-4)Pyo photoproducts are mutagenic lesions.  相似文献   

6.
N4-Aminocytidine, a nucleoside analog, is a potent mutagen towards phages, bacteria, Drosophila and mammalian cells in culture. In vitro, biochemical studies indicate that this reagent acts by being incorporated into DNA. To elucidate the mechanism of N4-aminocytidine mutagenesis, it is essential to identify the nature of DNA sequence alterations taking place during the mutagenesis. We have analyzed the nucleotide sequence changes in the lac promoter-lacZ alpha region of M13mp2 phage induced by treatment of phage-infected Escherichia coli with N4-aminocytidine. The sequence alterations of DNA samples from 89 mutants of the phage were determined. These mutants had single point mutations, except one mutant, in which a double point mutation was detected. Several hot spots were found: however, there are no apparent relations to particular DNA sequences regarding the locations of these spots. All the mutations are transitions; neither transversions nor deletions/insertions were found. A feature in these transitions is that the A/T to G/C and G/C to A/T changes occur at approximately equal rates. The overall picture of the mutagenesis is consistent with a scheme in which misincorporation and misreplication caused by the modified cytosine structure are the key steps in the DNA replication leading to transitions. Similar nucleotide alterations were found for the mutagenesis induced by an alkylated derivative, N'-methyl-N4-aminocytidine. N4-Aminocytidine also induced reversions of these mutants; both A/T to G/C and G/C to A/T transitions again took place.  相似文献   

7.
In 14 sites in the T4rII region, spontaneous and induced interconversions of ochre (UAA) and opal (UGA) alleles, as well as the reversion of the nonsense sites to r+, were studied. The mutagens employed were 2-aminopurine (2AP), 5-bromouracil (5BU), N-methyl-N'-nitro-N-nitrosoguanidine (NTG) and hydroxylamine (HA). With the test system employed, mutagen specificity (i.e., the preferential induction of A: T leads to G: C or G: C leads to A: T mutation at a given site) can be studied. Simultaneously, the response of similar base pairs at various locations in the same or in different nucleotide triplets throughout the rII region, to a given mutagen, can be compared. 2-Aminopurine can induce transitions of both A: T and G: C base pairs at high rates. This mutagen shows no preference for either direction. Furthermore, there is a correlation between the response to 2AP of an A: T pair occupying a given site, and that of a G: C pair occupying the same site. NTG and HA induce G: C leads to A: T transitions almost exclusively. However, there is a correlation between the low rates of A: T leads to G: C transition induced in each of the various sites by these mutagens and those of G: C leads to A: T. 5-Bromouracil induces transitions from G: C to A: T more readily than from A: T to G: C. With 5BU-induced mutation, there is no correlation between the rates of G: C leads to A: T transitions and those of A: T leads to G: C. In UAA sites, all three adenine:thymidine paris respond to 2AP mutagenesis in a similar pattern, In each position in the triplet, response to 2 AP is correlated with that to 5BU. In UGA sites, there are correlations among the spontaneous as well as the 2AP-, HA- and NTG-induced transition rates. 5BU-induced transition rates are usually not correlated with those induced by other mutagens or with the sponatneous ones.  相似文献   

8.
The kinds and locations of mutations in the coding region of the hypoxanthine (guanine) phosphoribosyltransferase (hprt) gene of 75 independent mutants, derived from N-methyl-N'-nitro-N-nitrosoguanidine (MNNG)-treated normal human fibroblasts, were characterized by direct sequencing of mRNA-polymerase chain reaction (mRNA-PCR)-amplified cDNA. Treatment of human cells with low (6 or 8 microM) or high (10 or 12 microM) doses of MNNG resulted in 35-fold or 150-fold average increases in mutation frequency, respectively. A high frequency of mutants lacking a complete exon was observed in both groups. Further characterization of half of these mutants by DNA-PCR amplification of intron-exon boundaries showed that they contained base substitutions. The kinds of base substitutions differed distinctly between these two groups. In the low dose group, a broad mutational spectrum was observed: ten out of the 31 base substitutions were A.T to G.C transitions, six contained G.C to A.T transitions, and the other 15 exhibited transversions. In contrast, the majority (84%) of base substitutions among the high dose group were G.C to A.T transitions; the others (16%) were transversions. All of the 32 G.C to A.T transitions were located on the non-transcribed strand, assuming that the causative premutational lesion was O6-methylguanine. These results indicate preferential repair of lesions located on the transcribed strand. In addition, G.C to A.T and A.T to G.C transitions preferentially occurred at positions with guanine and thymine at the adjacent 5' position, respectively.  相似文献   

9.
The most abundant lesion formed in DNA upon modification with methylating agents 7-methylguanine, under alkaline conditions is converted into 2,6-diamino-4-hydroxy-5N-methyl-formamidopyrimidine (Fapy-7MeGua). We have previously shown that treatment of dimethylsulfate methylated DNA with NaOH creates mutagenic base derivatives leading to a 60-fold increase in the frequency of A-->G transitions and a 2-3-fold increase of G-->T and G-->C transversions. We have analyzed which lesions lead to these mutations. We compared mutagenic spectra in the lacZ gene of M13mp18 phage DNA modified with dimethylsulfate and NaOH after selective elimination of damaged bases from molecules used for transfection into SOS-induced E. coli. Partial elimination of Fapy-7MeGua from phage DNA performed by its digestion with formamidopyrimidine-DNA glycosylase resulted in a 2-3-fold decrease of G-->T and G-->C transversions. Selective depurination of methylated bases (9 h, 37 degrees C, pH 7.0) resulting in almost complete loss of 7MeAde as demonstrated by HPLC analysis of [3H]MNU alkylated phage DNA used as a probe, caused a dramatic, 9-fold decrease of A-->G transitions. Alkali-catalysed rearrangement of 7MeAde was followed by HPLC analysis of [3H]MNU alkylated poly(A) and poly(dA). After incubation of these oligonucleotides in NaOH, 7MeAde disappeared from both chromatograms, but only in polyA, 2 new peaks migrating with retention time different from that of 1MeAde, 3MeAde or 7MeAde were detected, suggesting formation of two rotameric forms of Fapy-7MeAde as observed for Fapy-7MeGua. Thus the miscoding lesion, giving rise to A-->G transitions derived from 7MeAde was Fapy-7MeAde. Fapy-7MeGua was at least an order of magnitude less mutagenic, but in SOS-induced cells it gave rise to G-->T and G-->C transversions.  相似文献   

10.
One of the major products of lipid peroxidation is trans-4-hydroxy-2-nonenal (HNE). HNE forms highly mutagenic and genotoxic adducts to all DNA bases. Using M13 phage lacZ system, we studied the mutagenesis and repair of HNE treated phage DNA in E. coli wild-type or uvrA, recA, and mutL mutants. These studies revealed that: (i) nucleotide excision and recombination, but not mismatch repair, are engaged in repair of HNE adducts when present in phage DNA replicating in E. coli strains; (ii) in the single uvrA mutant, phage survival was drastically decreased while mutation frequency increased, and recombination events constituted 48 % of all mutations; (iii) in the single recA mutant, the survival and mutation frequency of HNE-modified M13 phage was slightly elevated in comparison to that in the wild-type bacteria. The majority of mutations in recA- strain were G:C → T:A transversions, occurring within the sequence which in recA+ strains underwent RecA-mediated recombination, and the entire sequence was deleted; (iv) in the double uvrA recA mutant, phage survival was the same as in the wild-type although the mutation frequency was higher than in the wild-type and recA single mutant, but lower than in the single uvrA mutant. The majority of mutations found in the latter strain were base substitutions, with G:C → A:T transitions prevailing. These transitions could have resulted from high reactivity of HNE with G and C, and induction of SOS-independent mutations.  相似文献   

11.
DNA base sequence changes induced by bromouracil mutagenesis of lambda phage   总被引:14,自引:0,他引:14  
The base sequence changes induced by bromouracil mutagenesis in the cI gene of phage lambda have been determined by direct sequence analysis. Phage DNA mutagenized during prophage replication or during phage lytic growth showed predominantly A · T → G · C transitions. The frequency of this mutation was strongly sequence-dependent: 5′ A-C-G-C 3′ > A-C(A.C or T) > A(A.G or T). The difference in mutability of bases in the gene is not the result of specificity in mutL-dependent mismatch repair, since phage grown in mutL host cells showed the same distribution of bromouracil mutations. The observations made in phage mutagenized with bromouracil in the prophage state should be representative of bromouracil mutagenesis in the Escherichia coli chromosome.  相似文献   

12.
Extracellular nonreplicating bacteriophage T4 particles accumulate mutations as functions of temperature, time, pH, and ionic environment via two mechanisms: 5-hydroxymethylcytidine deamination produces G.C----A.T transitions while a guanosine modification produces transversions. Neither frameshift mutations nor mutations at A.T base pairs are appreciably induced. We now show that heat induces G.C----T.A transversions which we suggest may arise via a G*.A mispair, in which G* is a modified guanosine that has experienced a glycosylic bond migration. The rate of this reaction at 37 degrees C is sufficient to present a genetic hazard, particularly to large genomes; thus, the lesion is probably efficiently repaired in cellular genomes.  相似文献   

13.
I show that the recognition sequences of Type II restriction systems are correlated with the G + C content of the host bacterial DNA. Almost all restriction systems with G + C rich tetranucleotide recognition sequences are found in species with A + T rich genomes, whereas G + C rich hexanucleotide and octanucleotide recognition sequences are found almost exclusively in species with G + C rich genomes. Most hexanucleotide recognition sequences found in species with A + T rich genomes are A + T rich. This distribution eliminates a substantial proportion of the potential variance in the frequency of restriction recognition sequences in the host genomes. As a consequence, almost all restriction recognition sequences, including those eight base pairs in length (Not I and Sfi I), are predicted to occur with a frequency ranging from once every 300 to once every 5,000 base pairs in the host genome. Since the G + C content of bacteriophage DNA and of the host genome are also correlated, the data presented is evidence that most Type II "restriction systems" are indeed involved in phage restriction.  相似文献   

14.
274 N-methyl-N'-nitro-N-nitrosoguanidine (MNNG)-induced forward mutations in the lacI gene of an Escherichia coli RecA- strain were cloned and sequenced. Base substitutions accounted for 264 mutations and consisted of 261 G:C----A:T transitions (including one double mutant with two G:C----A:T transitions separated by 25 base pairs), two A:T----G:C transitions and one A:T----T:A transversion. Therefore, 263 of the 274 mutations (all the transitions) can be explained as a result of the direct mispairing of O6-methylguanine, and O4-methylthymine residues during DNA synthesis. The source of the transversion is not known. The remaining mutations, one 16-base pair deletion, two -1 frameshifts and 7 frameshifts at the lacI frameshift hotspot, are located in runs of identical bases or flanked by directly repeated DNA sequences and can therefore be explained by template slippage events during DNA synthesis. The observed distribution of mutations recovered is identical to that found in a RecA+ background indicating little involvement of RecA function in MNNG-induced mutation. Analysis of neighbouring base sequence revealed that the G:C----A:T transition was 6 times more likely to be recovered if the mutated guanine residue was preceded by a purine rather than a pyrimidine. A most striking aspect of this distribution concerns particular residues in the core domain of the lac repressor protein. Within this domain the great majority of mutations generate nonsense codons or alter Gly codons.  相似文献   

15.
2-Aminopurine (P) is a mutagen causing A.T to G.C transitions in prokaryotic systems. To study the base-pairing schemes between P and cytosine (C) or thymine (T), two self-complementary dodecamers containing P paired with either C or T were synthesized, and their protonation equilibria were studied by acid-base titrations and melting experiments. The mismatches were incorporated into the self-complementary sequence d(CGCPCCGGXGCG), where X was C or T. Spectroscopic data obtained from molecular absorption, circular dichroism (CD), and molecular fluorescence spectroscopy were analyzed by a factor-analysis-based method, multivariate curve resolution based on the alternating least squares optimization procedure (MCR-ALS). This procedure allows determination of the number of acid-base species or conformations present in an acid-base or melting experiment and the resolution of the concentration profiles and pure spectra for each of them. Acid-base experiments have shown that at pH 7, 150 mM ionic strength, and 37 degrees C, both C and P are deprotonated. At pH near 4, the majority of species shows C protonated and P deprotonated. Finally, at pH values near 3, the majority of species shows both protonated C and P. These results are in agreement with NMR studies showing a wobble geometry for the P x C base pair and a Watson-Crick geometry for the P x T base pair at neutral pH. Melting experiments were carried out to confirm the proposed acid-base distribution profile. For the sequence including the P x T mismatch, only one transition was observed at neutral pH. However, for the sequence including the P x C mismatch, two transitions were detected by CD but only one by molecular absorption. This behavior agrees with that observed by other authors for oligonucleotides of similar sequence and suggests the following sequence of conformational changes during melting: duplex --> hairpin --> random coil.  相似文献   

16.
There is disagreement in the literature as to whether the major mutagenic photoproduct induced in DNA by ultraviolet light is the cyclobutane dipyrimidine dimer, the most common product, or the [6-4] photoproduct, the next most frequent. In the experiments reported here, cyclobutane dimers were removed from irradiated lambda phage DNA by enzymatic photoreactivation, a process thought to affect no other photoproduct. Photoreactivation of lambda phage in host cells and of lambda DNA in solution reduced clear plaque mutants per plaque-forming unit by two-thirds, in host cells with a constant and near-maximal expression of the SOS functions required for mutagenesis. This result is interpreted to mean that removal of cyclobutane dimers in or near the mutated gene reduces mutation induced by ultraviolet light by two-thirds; therefore, cyclobutane dimers in the phage DNA are responsible for most observed mutations. DNA sequences of mutations in photoreactivated phage showed a smaller fraction of G.C to A.T transitions and a larger fraction of A.T to G.C transitions, compared to phage that were not photoreactivated. This suggests that cyclobutane dimers at TC and CC sites are particularly mutagenic.  相似文献   

17.
The microstructural requirements for optimal interaction of neocarzinostatin chromophore (NCS-C) with DNA have been investigated using a series of hexadeoxyribonucleotides with modified bases such as O6-methyl G (MeG), I, 5-methyl C (MeC), U, or 5-Bromo U (BrU) at specific sites in its preferred trinucleotide 5'GNaNb3':5'Na,Nb,C3' (Na = A, C, or T). Results show that MeG:C and G:MeC in place of G:C improve direct strand cleavage at the target Nb (Nb = T greater than A much greater than C greater than G), whereas MeC:G and C:MeG in place of Na:Nb, hinder cleavage. The optimal base target at Nb appears to be determined by its ability to form T:A type base pairing instead of C:G type. The observed differences in DNA strand cleavage patterns can be rationalized by induced changes in target site structure and are compatible with a model for NCS-C:DNA interaction in which the naphthoate moiety intercalates between 5'GNa3', and the activated tetrahydro-s-indacene, lying in the minor groove, abstracts a hydrogen atom from C-5' of Nb.  相似文献   

18.
In the current studies, we investigated base substitutions in the Bacillus subtilis mutT, mutM, and mutY DNA error-prevention system. In the wild type strain, spontaneous mutations were mainly transitions, either G:C --> A:T or A:T --> G:C. Although both transitions and transversions were observed in mutY and mutM mutants, mutM/mutY double mutants contain strictly G:C --> T:A transversions. In the mutT strain, A:T --> C:G transversion was not observed, and over-expression of the B. subtilis mutT gene had no effect on the mutation rate in the Escherichia coli mutT strain. Using 8-oxo-dGTP-induced mutagenesis, transitions especially A:T --> G:C were predominant in the wild type and mutY strains. In contrary, transversion was high on mutY and double mutant (mutM mutY). Finally, the opuBC and yitG genes were identified from the B. subtilis chromosome as mutator genes that prevented the transition base substitutions.  相似文献   

19.
W J Mackay  S Han    L D Samson 《Journal of bacteriology》1994,176(11):3224-3230
The Escherichia coli Ada and Ogt DNA methyltransferases (MTases) are known to transfer simple alkyl groups from O6-alkylguanine and O4-alkylthymine, directly restoring these alkylated DNA lesions to guanine and thymine. In addition to being exquisitely sensitive to the mutagenic effects of methylating agents, E. coli ada ogt null mutants display a higher spontaneous mutation rate than the wild type. Here, we determined which base substitution mutations are elevated in the MTase-deficient cells by monitoring the reversion of six mutated lacZ alleles that revert via each of the six possible base substitution mutations. During exponential growth, the spontaneous rate of G:C to A:T transitions and G:C to C:G transversions was elevated about fourfold in ada ogt double mutant versus wild-type E. coli. Furthermore, compared with the wild type, stationary populations of the MTase-deficient E. coli (under lactose selection) displayed increased G:C to A:T and A:T to G:C transitions (10- and 3-fold, respectively) and increased G:C to C:G, A:T to C:G, and A:T to T:A transversions (10-, 2.5-, and 1.7-fold, respectively). ada and ogt single mutants did not suffer elevated spontaneous mutation rates for any base substitution event, and the cloned ada and ogt genes each restored wild-type spontaneous mutation rates to the ada ogt MTase-deficient strains. We infer that both the Ada MTase and the Ogt MTase can repair the endogenously produced DNA lesions responsible for each of the five base substitution events that are elevated in MTase-deficient cells. Simple methylating and ethylating agents induced G:C to A:T and A:T to G:C transitions in these strains but did not significantly induce G:C to C:G, A:T to C:G, and A:T to T:A transversions. We deduce that S-adenosylmethionine (known to e a weak methylating agent) is not the only metabolite responsible for endogenous DNA alkylation and that at least some of the endogenous metabolites that cause O-alkyl DNA damage in E. coli are not simple methylating or ethylating agents.  相似文献   

20.
Gas chromatography/isotope dilution-mass spectrometry with selected ion monitoring (GC/IDMS-SIM) was used to measure oxidised bases in hypoxanthine/xanthine oxidase/Fe3+/EDTA modified ss M13 mp18 phage DNA. A dose-dependent increase of oxidised bases content in DNA was observed with the biggest augmentation of FapyGua, thymine glycol and FapyAde. The amount of 8-OH-Gua was relatively high both in non-oxidised and oxidised DNA, and increased to the same extent as FapyAde and ThyGly. DNA oxidation caused a dramatic decrease in phage survival after transfection to E. coli. Survival was improved 2.8-fold after induction of the SOS system by UV irradiation of bacteria and mutation frequency of the lacZ gene in SOS conditions increased 7-fold over that in non-irradiated bacteria. Spectrum of mutations was different from those reported previously and mutations were distributed rather randomly within M13 lacZ sequence, which was in contrast to previous findings, where with non-chelated metal ions other types of mutations were found in several clusters. Thus, conditions of DNA oxidation and accessibility of metal ions for DNA bases might be important factors for generating different DNA damages and mutations. Major base substitutions found both in SOS-induced and non-induced E. coli but with higher mutation frequency in SOS-induced cells were C-->A (approximately 20-fold increase in SOS-conditions), G-->A (9-fold increase) and G-->C (4.5-fold increase). Very few G-->T transitions were found. A particularly large group of A-->G transitions appeared only in SOS-induced bacteria and was accompanied by augmentation of FapyAde content in the phage DNA with undetectable 2-OH-Ade. It is then possible that imidazole ring-opened adenine mimics guanine during DNA replication and pairs with cytosine yielding A-->G transitions in SOS-induced bacteria.  相似文献   

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