EC:2.7.7.7 - FACTA Search

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Query: EC:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ether-permeabilized (nucleotide-permeable) Escherichia coli cells exhibited DNA excision repair when exposed to the following carcinogenic K-region epoxides: 7-methyl- and 7,12-dimethyl-benz[a]anthracene-5,6-oxide, chrysene-5,6-oxide and benzo[a]pyrene-4,5-oxide. This DNA excision repair was missing in uvr A and uvr B mutant cells. The K-region epoxide phenanthrene-9,10-oxide was ineffective in all E. coli strains tested. In contrast to the K-region epoxides which where found active only in wild type cells, 1,2,3,4-diepoxybutane and the 6,7-epoxides of the tumor promoter TPA (12-O-tetradecanoyl-phorbol-13-acetate) elicited DNA repair in uvrA, uvrB mutant cells as well. Enzymic activities catalyzing particular repair steps were identified by determining a) repair polymerization and b) size reduction of denatured DNA. A) An easily quantifiable effect in E. coli wild type cells was epoxide-induced repair polymerization. None of the K-region epoxides tested stimulated DNA repair synthesis in uvrA, uvrB mutant cells, indicating that the uvrA-, uvrB-controlled UV-endonuclease initiated excision repair by cleaving epoxide-damaged DNA. 1,2,3,4-Diepoxybutane and the TPA-6,7-oxides induced DNA repair polymerization in uvr-deficient cells, although to a lesser extent than in wild type cells, suggesting the involvement of uvr-independent incision steps. None of the epoxides induced repair polymerization in a mutant (polA107) lacking the 5'--3'exonucleolytic activity of DNA polymerase I (exonuclease VI). The absence of any repair polymerization in the polA107 mutant indicates that the exonuclease VI plays a central role in removing epoxide-damaged nucleotides. As evidenced by greatly reduced levels of repair polymerization measured in polA1 cells, DNA polymerase I was the main polymerizing enzyme. b) As a consequence of treatment with 7-methyl-benz[a]anthracene-5,6-oxide, DNA from wild type cells, contrary to uvrA mutant cells, showed size reduction after denaturation and sedimentation in alkaline sucrose gradients. This is explained by repair-specific endonucleolytic cleavage of damaged DNA. The incision required the presence of ATP indicating that functional UV-endonuclease needs ATP as a cofactor.
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PMID:Carcinogen-induced DNA repair in nucleotide-permeable Escherichia coli cells. Analysis of DNA repair induced by carcinogenic K-region epoxides and 1,2,3,4-diepoxybutane. 15 97

gamma-Endonuclease Y, an enzyme that hydrolyses phosphodiester bonds at alkalistable lesions in gamma-irradiated (N2, tris buffer) DNA, has been partially purified from Micrococcus luteus. The enzyme has a molecular weight of about 19 000, induces single-strand breaks with 3'OH-5'PO4 termini and contains endonuclease activity towards DNA treated with 7-bromomethylbenz(a)anthracene. gamma-Endonuclease Y induces breaks in OsO4-treated poly(dA-dT) and apparently is specific towards gamma-ray-induced base lesions of the t' type. The complete excision repair of gamma-endonuclease Y substrate sites has been performed in vitro by gamma-endonuclease Y, DNA polymerase and ligase.
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PMID:Excision repair of gamma-ray-induced alkali-stable DNA lesions with the help of gamma-endonuclease from Micrococcus luteus. 31 80

Upon exposure to the carcinogens N-acetoxy-N-2-acetylaminofluorene and 7-bromomethyl-benz[a]anthracene, which bind covalently to DNA, ether-permeabilized (nucleotide-permeable) Escherichia coli wild-type cells responded with DNA excision repair. This repair was missing in mutants carrying defects in genes uvrA, uvrB and uvrC, whereas it was present in uvrD and several rec mutants. Enzymic activities involved were identified by measuring repair polymerization and size reduction of denatured DNA. 1. An easily measurable effect in E. coli wild-type cells was carcinogen-induced repair polymerization. When initiated by N-acetoxy-N-2-acetylaminofluorene or 7-bromomethyl-benz[a]anthracene, it depended upon an ATP-requiring step; CTP, GTP or UTP did not substitute for ATP. DNA repair synthesis was inhibited by p-chloromercuribenzoate and quinacrine. In uvrA, uvrB and uvrC mutants no carcinogen-stimulated DNA synthesis could be detected, indicating that steps involved in pyrimidine dimer excision are also involved in chemorepair. In recA, recB and recC mutant cells, repair synthesis was stimulated by the carcinogens to a normal extent. This evidence excludes the ATP-dependent recB,C deoxyribonuclease and recA gene products as playing an important role in carcinogen-induced excision repair. polA1 cells showed drastically reduced levels of rapair polymerization, indicating that DNA polymerase I is the main polymerizing enzyme. 2. As determined by DNA size reduction in alkaline sucrose gradients, the arylalkylating carcinogens caused endonucleolytic cleavage of endogenous DNA in wild-type cells. This incision step was most effectively performed in the presence of ATP; UTP, CTP and GTP were only slightly effective. Incision was inhibited by p-chloromercuribenzoate and quinacrine. When exposed to the arylalkylating carcinogens, uvrA, uvrB and uvrC mutant cells did not perform the incision step in the presence of ATP, suggesting the involvement of the respective gene products in the initiation of chemorepair.
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PMID:Carcinogen-induced DNA repair in nucleotide-permeable Escherichia coli cells. Analysis of DNA repair induced by the carcinogens N-acetoxy-N-2-acetylaminofluorene and 7-bromomethyl-benz(a)anthracene. 76 31

Transplantable fibrosarcomas were developed in two B-locus-defined chicken strains from primary tumors induced by im injection of 2 mg 7,12-dimethylbenz[a]anthracene in 0.1 ml dimethyl sulfoxide into 1- to 2-week-old chicks. Viruses were not important factors in transmission of these tumors as evidenced by 1) transplantability only within the chicken strain of origin, 2) lack of evidence for a filterable agent, 3) maintenance of donor karyotypic characteristics upon transplantation, 4) lack of DNA polymerase and avian leukosis virus group-specific protein production in vitro. Bursectomized inbred SC chickens had a higher incidence of tumor induction than did normals of the same strain. Although the exact interpretation of this finding posed some problems, as discussed, an important function of enhancing antibody in tumor growth appeared excluded.
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PMID:Chemical carcinogen-induced transplantable fibrosarcomas in histocompatible chickens. I. Incidence of tumor induction in normal and bursectomized chickens. 82 48

The action of DNA polymerase (Sequenase Version 2.0) on an oligonucleotide template containing a 7-bromomethyl-benz[a]anthracene-deoxyadenosine adduct flanked by thymidine residues was investigated. The polymerase incorporated deoxyadenosine or deoxyguanosine residues opposite the thymidine 3' to the adduct with similar efficiencies. Whereas the normal A.T base pair led to arrest of polymerase progression along the template, formation of the G.T mismatch allowed incorporation of thymidine opposite the adduct and further primer extension. This mispair-mediated bypass was also seen with AMV reverse transcriptase and may represent a novel mechanism for overcoming the replication block of a bulky carcinogen--DNA adduct.
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PMID:Bypass of a hydrocarbon adduct in an oligonucleotide template mediated by mispairing adjacent to the adduct. 171 21

To examine the effect of DNA adducts on nucleotide incorporation by DNA polymerase at 3' neighboring bases, synthetic oligonucleotides (16mers) containing a purine at position 13 from the 3' end and any one of the four possible bases at position 12 were prepared and reacted with 7-bromomethylbenz[a]anthracene. Using HPLC, unmodified oligonucleotide was separated from oligonucleotide containing a single adduct, at either an adenine or a guanine residue. These products were annealed with a 32P 5'-end labeled primer (11mer) and incubated with modified T7 DNA polymerase (Sequence, version 2.0) in the presence of deoxyribonucleoside 5'-triphosphates. Analysis by gel electrophoresis showed that unmodified oligonucleotide template allowed the primer to be rapidly extended to the entire length of the template. However, the presence of an adduct caused primer extension to stop at the base 3' to the adduct. While correct base pairing occurred at this termination site with most adducted templates, there was a high frequency of misincorporation of guanine opposite a thymine located 3' to an adenine adduct. This result suggest that some bulky carcinogen--DNA adducts may lead to base mismatches at neighboring bases.
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PMID:DNA polymerase-mediated nucleotide incorporation adjacent to hydrocarbon-deoxyadenosine and hydrocarbon-deoxyguanosine adducts. 189 25

In order to determine how individual hydrocarbon-DNA adducts give rise to specific mutations, a single-stranded oligonucleotide, 5'-T8GT10AT8C2T4CT3CT-3', was reacted with the carcinogen 7-bromomethylbenz[a]anthracene which generates both deoxyguanosine and deoxyadenosine adducts in DNA. The products were separated by HPLC to yield unmodified oligonucleotide and oligonucleotide modified either at the single guanine, or at the single adenine, residue. Incubation of these products with 32P-5'-end-labeled primer, 5'-AGA3GA4G2-3', modified T7 DNA polymerase (Sequenase) and deoxyribonucleoside-5'-triphosphates followed by gel electrophoretic analysis indicated that unmodified oligonucleotide template allowed the primer to be rapidly extended to give species of the same length as the template (40 nucleotides) and of 41 nucleotides in length. However, primer extension for the templates containing the guanine and adenine adducts was held up initially (1 min) at the nucleotide preceding the adduct. At longer times (up to 15 min) a nucleotide was added opposite the adduct and, to a lesser extent, another nucleotide was added beyond this. Some full-length oligonucleotide was also synthesized with these carcinogen-modified templates. When synthesis was allowed to proceed only to the nucleotide preceding the adduct, and this template-extended primer complex incubated with individual nucleotide triphosphates plus Sequenase, it was found that deoxyadenosine residues were most readily incorporated opposite the adduct irrespective of whether it was a deoxyguanosine or deoxyadenosine adduct. These results, which suggest that G.C----T.A and A.T----T.A transversions would be the mutagenic consequences of formation of bulky hydrocarbon adducts at guanines and adenines respectively, are consistent with the most frequent hydrocarbon-induced mutational changes reported thus far.
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PMID:DNA polymerase action on bulky deoxyguanosine and deoxyadenosine adducts. 229 23

A new E. coli DNA polymerase I directed nick translation assay was used for measuring 7,12-dimethylbenz[a]anthracene-induced in situ DNA damage and repair in mouse mammary epithelial cells in monolayer culture. The nick translation assay was capable of detecting a DMBA-dose dependent significant increase of DNA damage, and the same assay also allowed monitoring of the DNA repair activity provoked by DMBA treatment of the epithelial cells. This relatively simple method thus provides a rapid assay for carcinogen-induced in situ DNA damage and repair in an epithelial cell tumorigenic system.
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PMID:DMBA induced DNA damage and repair in mammary epithelial cells in vitro measured by a nick translation assay. 311 18

The studies described in this report directly examined the mutagenicity in Escherichia coli of both a deoxyadenosine (dAdo) and a deoxyguanosine (dGuo) adduct derived from (+)-anti-dibenz[a,j]-anthracene-3,4-diol 1,2-epoxide [(+)anti-DB[a,j]A-DE] that were site-specifically placed in a single-stranded M13mp7L2 replication vector. An 11-base oligonucleotide (5'-CTC ACG CTT CT-3') containing either a single (+)anti-DB[a,j]A-DE--trans-N2-dGuo or (+)anti-DB[a,j]A-DE--trans-N6dAdo adduct was successfully incorporated into single-stranded M13mp7L2 plasmid via ligation. In vitro studies using E. coli DNA polymerase I (Klenow fragment)indicated that both adducts were effective blocks for polymerase action. E. coli strains JM103 and JM103 uvrA6 were subsequently transformed with control (unadducted) and adduct-containing M13mp7L2 constructs followed by analysis of progeny DNA. In both JM103 and JM103 uvrA6 cells, plaque yields were markedly reduced with adduct containing vectors compared to control vectors. Activation of the inducible bacterial DNA repair system (SOS) by UV light only slightly increased the number of plaques recovered from either bacterial strain transformed with adduct-containing vectors. Targeted mutations were obtained with both adduct-containing vectors in both bacterial strains, whereas no mutations were detected in plaques recovered from control M13mp7L2 vectors. In JM103 cells, (+)anti-DB[a,j]A-DE--N6-dAdo induced exclusively A --> t transversions and (+)anti-DB[a,j]A-DE--N2-dGuo induced exclusively G --> T transversions. In JM103 uvrA6 cells, similar targeted transversion mutations were also obtained except that a few C deletions (i.e., aprroximately 10% of the mutations) were detected immediately 3' to the dAdo adduct. While mutagenesis was SOS dependent in JM103 cells [<0.15% (-SOS) vs approximately 1.3% (+SOS)], it appeared to be SOS independent in JM103 uvrA6 cells (approximately 1-2% in the presence or absence of SOS induction). It is argued that adduct-induced G --> T mutations can be rationalized by either misinformational or noninformational mechanisms. In contrast, A --> T mutations are unlikely to arise via a misinformational pathway, which provides the strongest support to date that bulky DNA adducts can induce mutations via a noninformational pathway.
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PMID:Targeted A --> T and G --> T mutations induced by site-specific deoxyadenosine and deoxyguanosine adducts, respectively, from the (+)-anti-diol epoxide of dibenz[a,j]anthracene in M13mp7L2. 867 48

Like other polycyclic aromatic hydrocarbons, certain metabolites of benz[a]anthracene have been implicated as potent carcinogens. These effects are thought to be caused by the covalent binding of these species to nucleophilic groups on the bases of DNA. To address the molecular mechanisms by which these molecules induce mutations, this study employed oligonucleotides containing four site-specific N6 adenine-benz[a]anthracene diol epoxide adducts. Using a prokaryotic in vivo replication system, we have shown that both non-bay region anti-trans-benz[a]anthracene adducts are essentially nonmutagenic. In contrast, the bay region anti-trans-benz[a]anthracene lesions do induce point mutations at the adduct site. The mutagenic frequency of these bay region lesions is dependent on the stereochemistry about the adduct-forming bond, as well as the strain of Escherichia coli in which they are replicated. The ability of the bacterial replication machinery to bypass the lesions does not correlate with the differences observed in their mutagenesis. While both non-bay region adducts are readily bypassed in vivo, the bay region adducts are both blocking to approximately the same degree. In vitro studies of the interactions of E. coli DNA polymerase III with these adducts have also been undertaken to further dissect the relationship between adduct structure and biological activity.
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PMID:Lack of correlation between in vitro and in vivo replication of precisely defined benz-a-anthracene adducted DNAs. 940 10

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