Sequence analysis of lacZ- mutations induced by ion beam irradiation in double-stranded M13mp18DNA

While M13mp18 double-stranded DNA was irradiated with ion beam, and transfected intoE. coli JM103, a decrease of transfecting activity was discovered. The lacZ^- mutation frequency at 20% survival could reach (3.6–16.8) × 10⁴, about 2, 3–10 times that of unirradiated M13DNA. Altogether, 27 IacZ^-mutants were selected, 10 of which were used for sequencing. 7 of the sequenced mutants show base changes in 250-bp region examined (the remaining 3 mutants probably have base changes outside the regions sequenced). 5 of the base-changed mutants contain more than one mutational base sites (some of them even have 5–6 mutational base sites in 250-bp region examined); this dense distribution of base changes in polysites has seldom been seen in X-rays, Y-rays or UV induced DNA mutations. Our experiments also showed that the types of base changes include transitions(50%), transversions (45%) and deletion (5%); no addition or duplication was observed. The transitions were mainly C→T and A→G; the transversions were mainly C→A and C→G. The mutations involving cytosine residue (in the template strand) constitute about 60% of all the base changes observed. In comparison with the surrounding sequences of mutational base sites, the base located between TG and CT is found to be easily substituted.     

Sequence analysis of lacZ~- mutations induced by ion beam irradiation in double-stranded M13mp18DNA

While M13mpl8 double-stranded DNA was irradiated with ion beam, and transfected into E. coli JM103, a decrease of transfecting activity was discovered. The lacZ-mutation frequency at 20% survival could reach (3.6-16.8) × 104, about 2.3-10 times that of unirradiated M13DNA. Altogether, 27 lacZ~ mutants were select-ed, 10 of which were used for sequencing. 7 of the sequenced mutants show base changes in 250-bp region examined (the remaining 3 mutants probably have base changes outside the regions sequenced). 5 of the base-changed mutants contain more than one mutational base sites (some of them even have 5-6 mutational base sites in 250-bp region ex-amined) ; this dense distribution of base changes in polysites has seldom been seen in X-rays, γ-rays or UV induced DNA mutations. Our experiments also showed that the types of base changes include transitions( 50 % ), transversions (45% ) and deletion (5% ); no addition or duplication was observed. The transitions were mainly C→T and A→G; the transversion     

Sequence analysis of lacZ- mutations induced by ion beam irradiation in double-stranded M13mp18DNA

While M13mp18 double-stranded DNA was irradiated with ion beam, and transfected intoE. coli JM103, a decrease of transfecting activity was discovered. The lacZ^- mutation frequency at 20% survival could reach (3.6–16.8) × 10⁴, about 2, 3–10 times that of unirradiated M13DNA. Altogether, 27 IacZ^-mutants were selected, 10 of which were used for sequencing. 7 of the sequenced mutants show base changes in 250-bp region examined (the remaining 3 mutants probably have base changes outside the regions sequenced). 5 of the base-changed mutants contain more than one mutational base sites (some of them even have 5–6 mutational base sites in 250-bp region examined); this dense distribution of base changes in polysites has seldom been seen in X-rays, Y-rays or UV induced DNA mutations. Our experiments also showed that the types of base changes include transitions(50%), transversions (45%) and deletion (5%); no addition or duplication was observed. The transitions were mainly C→T and A→G; the transversions were mainly C→A and C→G. The mutations involving cytosine residue (in the template strand) constitute about 60% of all the base changes observed. In comparison with the surrounding sequences of mutational base sites, the base located between TG and CT is found to be easily substituted.     

Mutations induced by DNA polymerase alpha upon in vitro replication of M13mp8(+) DNA.

The forward mutation of the lacZ part of the bacteriophage M13mp8 has been used to study the fidelity of the 9S DNA polymerase alpha from calf thymus during in vitro replication of single-stranded DNA. Errors leading to a loss of alpha-complementation were identified by DNA sequencing. The overall mutation rate of the lacZ target sequence was in the range of 1:300-1:1000 which is more than one order of magnitude higher than the spontaneous mutation rate. In a mutL host the mutation rate was nearly threefold higher as compared to the wildtype host. Base substitutions comprise 86% of the errors whereas base deletions amount to 12%. The addition of a base was detected only in one mutant out of 71 sequenced ones. The frameshift mutations occurred predominantly in runs of the same base. The frequencies of individual base substitution are in the order of 2 X 10(-4)-4 X 10(-4) for most of the mismatches. Mutations involving dCTP:T and dGTP:T mismatches are observed with a lower frequency, those involving dTTP:C mismatches with a higher frequency.     

Corrected nucleotide sequence of M13mp18 gene III.

There are seven differences between the actual nucleotide (nt) sequence of bacteriophage M13mp18 gene III and the previously reported nt sequence (which had been compiled based on the nt sequence of wild-type bacteriophage M13 gene III).     

Mutagenic specificity of imidazole ring-opened 7-methylpurines in M13mp18 phage DNA

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.     

Analysis of secondary structures in M13mp8 (+) single-stranded DNA by the pausing of DNA polymerase alpha

The pausing of DNA replication has been used as a tool for analyzing secondary structures in a single-stranded DNA. M13mp8 (+) single-stranded DNA was replicated in vitro by the DNA polymerase alpha from calf thymus. The positions of pausing were determined from DNA sequencing gels. All experimentally observed pausing sites could be correlated with computer-predicted secondary structures of the M13 single-stranded DNA. In the computer calculations of the secondary structures, long-range base-pairing, G.T mispairs and loop-out of bases were allowed. By using six different primers, the pausing site pattern and the corresponding secondary structure map of a region comprising 1400 nucleotides of the M13 genome has been established. Our experiments indicate that the M13 DNA is highly structured. Most of the stable structures are clustered around the origin of replication. With fragments of the M13 DNA, we show that long-range base-pairing exists in the M13 single-stranded genome and we present evidence for tertiary structure interactions. Furthermore we observe structures that form newly during the course of replication. The Escherichia coli single-stranded DNA-binding protein facilitates replication through the barriers.     

Survival of M13mp18 gapped duplex DNA as a function of gap length

Gaps of various lengths were generated in duplex M13mp18DNA by exonuclease III digestion of nicked DNA. The length of the gap increased essentially linearly with time of digestion. Survival in E. coli, however, was not a linear function of gap length. Similar results were obtained when gaps were produced by stopping the polymerization reaction. The survival (N/No) of the gapped DNA in SOS-induced E. coli cells transformed by electroporation and uninduced cells transformed by the calcium chloride method can be quantitatively accounted for by a kinetic model assuming a single-strand endonucleolytic activity (Pd) in the cell which increases linearly with gap length (L) and a repair activity by a polymerase (Pr) which is independent of gap length (formula 1). With uninduced cells transformed by electroporation the results can be mathematically described if assumptions are made concerning the protection of single-stranded parts of the DNA by single-strand affinic proteins.     

Biological properties of imidazole ring-opened N7-methylguanine in M13mp18 phage DNA.

Guanine residues methylated at the N-7 position (7-MeGua) are susceptible to cleavage of the imidazole ring yielding 2,6-diamino-4-hydroxy-5N-methyl-formamidopyrimidine (Fapy-7-MeGua). The presence of Fapy-7-MeGua in DNA template causes stops in DNA synthesis in vitro by E. coli DNA polymerase I. The biological consequences of Fapy-7-MeGua lesions for survival and mutagenesis were investigated using single-stranded M13mp18 phage DNA. Fapy-7-MeGua lesions were generated in vitro in phage DNA by dimethylsulfate (DMS) methylation and subsequent ring opening of 7-MeGua by treatment with NaOH (DMS-base). The presence of Fapy-7-MeGua residues in M13 phage DNA correlated with a significant decrease in transfection efficiency and an increase in mutation frequency in the lacZ gene, when transfected into SOS-induced JM105 E.coli cells. Sequencing analysis revealed unexpectedly, that mutation rate at guanine sites was only slightly increased, suggesting that Fapy-7-MeGua was not responsible for the overall increase in the mutagenic frequency of DMS-base treated DNA. In contrast, mutation frequency at adenine sites yielding A----G transitions was the most frequent event, 60-fold increased over DMS induced mutations. These results show that treatment with alkali of methylated single-stranded DNA generates a mutagenic adenine derivative, which mispairs with cytosine in SOS induced bacteria. The results also imply that the Fapy-7-MeGua in E. coli cells is primarily a lethal lesion.     

Repair of thymine.guanine and uracil.guanine mismatched base-pairs in bacteriophage M13mp18 DNA heteroduplexes

Repair of thymine.guanine (T.G) and uracil.guanine (U.G) mismatched base-pairs in bacteriophage M13mp18 replicative form (RF) DNA was compared upon transfection into repair-proficient or repair-deficient Escherichia coli strains. Oligonucleotide-directed mutagenesis was used to prepare covalently closed circular heteroduplexes that contained the mismatched base-pair at a restriction recognition site. The heteroduplexes were unmethylated at dam (5'-GATC-3') sites to avoid methylation-directed biasing of repair. In an E. coli host containing uracil-DNA glycosylase (ung+), about 97% of the transfecting U.G-containing heteroduplexes had the U residue excised by the uracil-excision repair system. With the analogous T.G mispair, mismatch repair operated on almost all of the transfecting heteroduplexes and removed the T residue in about 75% of them when the mismatched T was on the minus strand of the RF DNA. Similar preferential excision of the minus-strand's mismatched base was observed whether the heteroduplex RF DNA molecules had only one or both strands unmethylated at dcm (5'-CC(A/T)GG-3') sites and whether the RF DNA was prepared by primer extension in vitro or by reannealing mutant and non-mutant DNA strands. Also, the extent and directionality of repair was the same at a U.G mispair in ung- host cells as at the analogous T.G mispair in ung- or ung+ cells. Only in a mismatch repair-deficient (mutH-) host was the plus strand of the transfecting M13mp18 heteroduplex DNA preferentially repaired. It is suggested that the plus strand nick made by the M13-encoded gene II protein might be employed by a mutH- host to initiate repair on that strand.     

A versatile primer for DNA sequencing in the M13mp2 cloning system

A primer for DNA sequencing by the chain-termination method in the M13mp2 cloning system was constructed and amplified. The primer was isolated as an EcoRI/AluI restriction fragment. After conversion of the AluI end into an EcoRI end the fragment was cloned in pBR325 from which it can be recovered by cleavage with EcoRI. The primer hybridizes to the single-stranded DNA of the mature M13mp2 phage next to the site of insertion thereby directing DNA synthesis along the inserted DNA.     

The influence of combined Fpg- and MutY-deficiency on the spontaneous and gamma-radiation-induced mutation spectrum in the lacZalpha gene of m13mp10

One of the most predominating oxidative DNA damages, both spontaneously formed and after gamma-radiation is 7, 8-dihydro-8-oxoguanine (8oxoG). This 8oxoG is a mutagenic lesion because it can mispair with adenine instead of the correct cytosine leading to G:C to T:A transversions. In Escherichia coli (E. Coli) base excision repair (BER) is one of the most important repair systems for the repair of 8oxoG and other oxidative DNA damage. An important part of BER in E. coli is the so-called GO system which consists of three repair enzymes, MutM (Fpg), MutY and MutT which are all involved in repair of 8oxoG or 8oxoG mispairs. The aim of this study is to determine the effect of combined Fpg- and MutY-deficiency on the spontaneous and gamma-radiation-induced mutation spectrum of the lacZalpha gene. For that purpose, non-irradiated or gamma-irradiated double-stranded (ds) M13mp10 DNA, with the lacZalpha gene inserted as mutational target sequence was transfected into an E. coli strain which is deficient in both Fpg and MutY (BH1040). The resulting mutation spectra were compared with the mutation spectra of a fpg(-) E. coli strain (BH410) and a wild type E. coli strain (JM105) which were determined in an earlier study. The results of the present study indicate that combined Fpg- and MutY-deficiency induces a large increase in G:C to T:A transversions in both the spontaneous and gamma-radiation-induced mutation spectra of BH1040 (fpg(-)mutY(-)) as compared to the fpg(-) and the wild type strain. Besides the increased levels of G:C to T:A transversions, there is also an increase in G:C to C:G transversions and frameshift mutations in both the spontaneous and gamma-radiation-induced mutation spectra of BH1040 (fpg(-)mutY(-)).     

Improved M13 phage cloning vectors and host strains: nucleotide sequences of the M13mp18 and pUC19 vectors

Three kinds of improvements have been introduced into the M13-based cloning systems. (1) New Escherichia coli host strains have been constructed for the E. coli bacteriophage M13 and the high-copy-number pUC-plasmid cloning vectors. Mutations introduced into these strains improve cloning of unmodified DNA and of repetitive sequences. A new suppressorless strain facilitates the cloning of selected recombinants. (2) The complete nucleotide sequences of the M13mp and pUC vectors have been compiled from a number of sources, including the sequencing of selected segments. The M13mp18 sequence is revised to include the G-to-T substitution in its gene II at position 6 125 bp (in M13) or 6967 bp in M13mp18. (3) M13 clones suitable for sequencing have been obtained by a new method of generating unidirectional progressive deletions from the polycloning site using exonucleases HI and VII.     

Chemico-enzymatic synthesis and cloning of human angiogenin gene in M13mp8 phage

The nucleotide sequence coding for human angiogenin has been deduced from the published amino acid sequence with the use of codons preferentially utilized in highly expressed E. coli genes. It was divided into forty-three oligonucleotides, which were synthesized by automatic gene assembler and then joined by DNA ligase into three double-stranded blocks, the blocks were consequently cloned and ligated in M13mp8 phage, and the resultant 389-bp DNA sequence coding for human angiogenin was analysed by chain-terminator sequencing technique.     

A short primer for sequencing DNA cloned in the single-stranded phage vector M13mp2.

In this paper we describe the synthesis and cloning of a short segment of DNA complementary to the region immediately adjacent to the EcoRI insertion site in the single-stranded bacteriophage vector M13mp2. This segment is useful as a "universal" primer for DNA sequencing by the dideoxynucleotide chain termination method; the template can be any DNA species cloned in M13mp2 or its derivatives. The primer has been cloned into the tetracycline resistance gene of plasmid pBR322 as one strand of a 26 bp EcoRI/BamHI fragment. This fragment may be readily prepared from an EcoRI + BamHI restriction digest of the parent plasmid (designated pSP14) by a simple size fractionation.     

Specificity of ionizing radiation-induced mutagenesis in the lac region of single-stranded phage M13 mp10 DNA.

M13 mp10 single-stranded phage DNA was irradiated with 60 Co gamma-rays, and transfected into Escherichia coli. One hundred and sixteen mutant clones having lesions in the lac insert were selected, and mutational sites were examined by DNA sequence analysis. Fourteen out of the 15 nucleotide changes thus detected were base substitutions, and the rest was a base addition. Transitions and transversions were almost equal in number. Mutational events were observed at cytosine residues more frequently than at other residues, and the predominant base change was a C ---- T transition. Possible roles in gamma-ray-induced mutagenesis played by the misincorporation of dAMP owing to radiolytic derivatives of cytosine residues and/or formation of apurinic/apyrimidinic sites are discussed.     

SFM studies of carbon ion induced damages in plasmid DNA

In this study we present for the first time detailed scanning force microscopy (SFM) investigations of carbon ion induced damages in plasmid DNA in order to obtain information about the biological effectiveness of particle radiation. For this purpose, we have combined SFM and gel electrophoresis measurements in a dose range between D = 0 Gy and 5000 Gy. After irradiation with C ions, the percentage of double-strand breaks (DSBs) increases drastically, i.e. from initially 0% for D = 0 Gy to 38% for D = 5000 Gy. Increasing the dose over the total range is accompanied by a shortening of the average fragment length from L = 1100 nm to L = 575 nm. In addition to our experiments, the average numbers of induced DSBs per irradiated plasmid and per broken plasmid have been calculated from the SFM measurements. The most important among the numerous results is that a significant amount of plasmids has suffered more than two DSBs for all applied doses, indicating multiple DSBs. The number of DSBs per broken plasmid increases from approximately 1.7 after irradiation with a dose of D = 250 Gy to 3.2 after exposure to the highest dose of D = 5000 Gy. The results provide experimental data for the spatially correlated production of DSBs after carbon irradiation, that are relevant to the understanding of its biological effectiveness.     

Specificity of spontaneous mutation in the lacI gene cloned into bacteriophage M13

We have studied the specificity of spontaneous mutation in the lacI gene of Escherichia coli cloned into bacteriophage M13. The comparison of the spectrum of 85 spontaneous mutations with that of the lacI gene carried on an E. coli F' episone revealed the following characteristics: (i) base substitution was predominant, accounting for 80% of spontaneous events compared with only 11% on the F' episome; (ii) among the base substitutions, the majority were G:C----A:T transitions (86%); (iii) not one mutation recovered on M13 corresponded to a mutation at the spontaneous hotspots seen in the F' spectrum (i.e., neither the addition or deletion of the tetramer 5'-CTGG-3' at position 620-631 nor the A:T----G:C transition at position +6 of lacO were recovered). The enhanced rate of cytosine deamination in single-stranded DNA, the unique replication mechanism and the refractory nature of single-stranded DNA to excision-repair processes present likely explanations for the observed mutational spectrum.