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)

Human fibroblast cells treated with benzo[alpha]pyrene (BP), aflatoxin B1 (AFB1) or N-acetoxy-2-fluorenylacetamide (A-AAF) inhibited Snyder-Theilen feline sarcoma virus (ST-FeSV) focus formation. Inhibition of focus formation resulting from chemical treatment was not related to cytotoxic concentrations of chemicals in that little or not effect on cells surviving treatment was observed. Maximum inhibition of focus formation occurred with BP when the cells were treated before infection. By contrast, maximum inhibition of focus formation occurred with A-AAF and AFB1 when the cells were treated after virus infection. Inhibition of focus formation by BP and AFB1 was eliminated when virus infected cells were treated 48-96 h post-infection. While no infectious virus was detected in either chemical treated or untreated ST-FeSV virus infected cultures, comparable levels of virus-directed RNA dependent DNA polymerase enzyme assay (RDDP) activity were found in both treated and untreated cultures. The data show that the inhibitory effect on focus formation is chemically mediated while the inhibition of virus synthesis is not.
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PMID:Feline sarcoma virus in vitro infection of human cells. Influence of chemical carcinogens on focus formation. 8 Nov 13

The mutagenic spectrum induced by aflatoxin-DNA lesions in DNA repair deficient and repair proficient human cells was investigated. The reactive metabolite aflatoxin B1-8,9-epoxide was synthesized and reacted in vitro with the shuttle vector plasmid pS189. Plasmids were transfected into human fibroblasts and allowed to replicate, and the recovered plasmids were screened in indicator bacteria for plasmid survival and mutations in the supF marker gene. Sequence data were obtained from 71 independently arising mutants recovered from DNA repair deficient xeroderma pigmentosum (XP) cells [XP12BE(SV40)] and 60 mutants recovered from a DNA repair proficient cell line (GM0637). Plasmid survival was lower and mutation frequency higher with the XP cells, and the mutation hotspots differed substantially for the 2 cell lines. Most mutations (> 90%) were base substitutions at G:C pairs, only about one-half of which were G:C-->T:A transversions, the expected predominant mutation. One-third of the mutations at GG sites and none of those at isolated Gs were G:C-->A:T transitions. Tandem base substitutions also occurred only at GG sites and were found only with XP cells. The location of mutation hotspots with either cell line did not correlate with the level of modification within the sequence as assessed by a DNA polymerase stop assay. These results suggest that the DNA repair deficiency associated with XP can influence not only the overall frequency of mutations but also the distribution of mutations within a gene. The finding of transition mutations exclusively at GG sites may be of predictive value in attempts to link dietary aflatoxin exposure to cancers associated with specific mutations in the c-ras oncogene and the p53 tumor suppressor gene.
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PMID:Sequence specificity of aflatoxin B1-induced mutations in a plasmid replicated in xeroderma pigmentosum and DNA repair proficient human cells. 139 91

In lung and liver cancers, p53 mutations are mostly G:C to T:A transversions. This type of mutation is known to be induced by benzo(a)pyrene and aflatoxin B1 which are associated with the etiology of lung and liver cancers, respectively. Using a novel assay based on DNA polymerase fingerprint analysis, we identified p53 nucleotides targeted by these carcinogens. Thirteen of 14 nucleotide residues of the p53 gene which underwent G:C to T:A mutations in lung cancers were targeted by benzo(a)pyrene. Similarly, aflatoxin B1 formed adducts at a mutational hotspot specific for liver cancer. The same nucleotide (third base of codon 249), which mutates rarely in lung cancers, was not a target for benzo(a)pyrene. These in vitro observations indicate that p53 mutational hotspots identified in different tumors are selected targets specifically for the etiologically defined environmental carcinogens.
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PMID:Selective targeting of p53 gene mutational hotspots in human cancers by etiologically defined carcinogens. 193 77

The dnaQ (mutD) gene product which encodes the epsilon-subunit of the DNA polymerase III holoenzyme has a central role in controlling the fidelity of DNA replication because both mutD5 and dnaQ49 mutations severely decrease the 3'-5' exonucleolytic editing capacity. It is shown in this paper that more than 95% of all dnaQ49-induced base pair substitutions are transversions of the types G:C-T:A and A:T-T:A. Not only is this unusual mutational specificity precisely that observed recently for a number of potent carcinogens such as benzo(a) pyrene diolepoxide (BPDE) and aflatoxin B1 (AFB1), which are dependent on the SOS system to mutagenize bacteria, but it is also seen for the constitutively expressed SOS mutator activity in E. coli tif-1 strains as well as for the SOS mutator activity mediated gap filling of apurinic sites. Because the G:C-T:A and A:T-T:A transversions can either result from the insertion of an adenine across from apurinic sites or arise due to the incorporation of syn-adenine opposite a purine base, we postulate that the DNA polymerase III holoenzyme also has a reduced discrimination ability in a dnaQ49 background. The introduction of a lexA (Ind-) allele, which prevents the expression of SOS functions, led to a significant reduction in the dnaQ49-caused mutator effect. Both, the mutational specificity observed and the partial lexA+ dependence of the mutator effect provoke a reanalysis of the hypothesis that the DNA polymerase III holoenzyme can be converted into the postulated but until now unidentified SOS polymerase.
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PMID:Mutational specificity of a proof-reading defective Escherichia coli dnaQ49 mutator. 351 28

The genotoxic effects of the potent mutagenic carcinogen aflatoxin B1 (AFB1) are believed to be mediated by its reaction with the N-7 atom of guanine residues in DNA. We have analyzed the effect of AFB1-induced chemical modification on the template function of single-stranded DNA in vitro. The experimental strategy involves the elongation of a primer on a modified template by Escherichia coli DNA polymerase I (large fragment) and analysis of the products by high-resolution gel electrophoresis. Our data show that (i) AFB1 induces specific replication blocks one nucleotide 3' to the sites of occurrence of guanine residues on template DNA; (ii) AFB1-induced replication blocks occur predominantly at sequences capable of participation in intrastrand base pairing; (iii) within the intrastrand base-paired regions there are strong sequence context effects, in accordance with the previously described [Muench, K. F., Misra, R. P. & Humayun, M. Z. (1983) Proc. Natl. Acad. Sci. USA 80, 6-10] specificity "rules" that apply to the reaction of AFB1 with guanine residues in double-stranded DNA; (iv) there is evidence that the (7-guanyl)-AFB1 adducts as well as secondary derivatives such as the formamidopyrimidine-AFB1 act as replication blocks. In summary, these data suggest that previously observed inhibition of DNA replication and transcription by AFB1 is directly attributable to (7-guanyl)-AFB1 adducts or their secondary reaction products.
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PMID:Sequence context effects in DNA replication blocks induced by aflatoxin B1. 392 72

Formation of single strand breaks in nuclear DNA induced by hepatocarcinogens aflatoxin B1 and N-nitrosodimethylamine was observed to be more pronounced in rats maintained on a riboflavin-deficient diet compared to that on a normal diet. This increased damage was reversed on riboflavin supplementation. The induction of repair enzymes poly(ADP-ribose) polymerase, DNA polymerase beta and DNA ligase was significantly higher in riboflavin-deficient rats following DNA damage caused by the administration of carcinogens. Riboflavin supplementation brought down the induction to the levels found in rats maintained on normal diet. Since damage to DNA and its altered repair may relate to carcinogenesis, modulation of these parameters by riboflavin suggests a potential chemopreventive role of this vitamin.
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PMID:Modulation of carcinogen-induced DNA damage and repair enzyme activity by dietary riboflavin. 855 99

A single dose of the carcinogen aflatoxin B1 (7 mg/kg body weight) to male Wistar rats significantly enhanced the hepatic activity of protein kinase C in the particulate and nuclear fractions. The particulate fraction showed stimulation at 4 and 7 h, while the nuclear activity was increased at 17 h following administration of aflatoxin B1. The enzyme activity in cytosol revealed a significant decline corresponding to stimulation in particulate fraction. The carcinogen-activated protein kinase C stimulated autophosphorylation, and was found to accelerate in vitro phosphorylation of two model DNA synthesizing enzymes--the Klenow fragment of replicative DNA polymerase of E. Coli and a DNA primase-polymerase complex of yeast mitochondrial origin. Prior phosphorylation of these enzymes led to significant enhancement of their activities. The results imply that activation of protein kinase C and consequently the activation of DNA synthesizing enzymes may play an important role in the initiation of carcinogenesis.
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PMID:Signal transduction mechanism in response to aflatoxin B1 exposure: protein kinase C activity. 864 90

The effect of different vitamin A status on events following DNA damage by hepatocarcinogens was investigated in rats. Formation of single-strand breaks in nuclear DNA induced by aflatoxin B1 and N-nitrosodimethylamine was observed to be more pronounced after vitamin A-deficiency. This enhanced damage was reversed upon vitamin A supplementation. Subsequent to DNA damage, the induction of repair enzymes poly(ADP-ribose) polymerase, DNA polymerase beta and DNA ligase was found to be significantly higher in vitamin A-deficient rats. Vitamin A supplementation brought down the induction to the levels found in rats maintained on normal diet. Vitamin A thus may control carcinogenesis by manipulating molecular events at the initiation stage.
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PMID:Effect of different vitamin A status on carcinogen-induced DNA damage and repair enzymes in rats. 872 17

The activity of some nuclear enzymes associated with DNA repair was examined following aflatoxin B1 administration in rats maintained on different levels of dietary copper. Induction of poly(ADP-ribose) polymerase, DNA polymerase beta and DNA ligase was found to be significantly higher in copper-deficient rats. Copper supplementation, even at marginal doses, was able to bring down the induction to the level observed in normal rats. The results emphasize the protective role of copper against the DNA damaging effects of aflatoxin B1.
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PMID:Modulation by dietary copper of aflatoxin B1-induced activity of DNA repair enzymes poly (ADP-ribose) polymerase, DNA polymerase beta and DNA ligase. 889 34

Administration of hepatocarcinogens aflatoxin B1 and N-nitrosodimethylamine to rats caused single-strand breaks in nuclear DNA. Inclusion in the diet of rutin, a naturally occurring phenolic flavonoid glycoside, significantly reduced the appearance of such breaks. The protection against DNA damage was found to be reduction in the induction of repair enzymes polymerase, DNA polymerase beta and DNA ligase. Even associated with poly(ADP-ribose) a marginal dose of rutin was effective in this regard. Since DNA damage and inefficient repair are expected to initiate the process of carcinogenesis, modulation by rutin of these parameters emphasizes the protective role of this flavonoid against carcinogenesis induced by chemical carcinogens.
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PMID:Protective effect of rutin, a flavonol glycoside, on the carcinogen-induced DNA damage and repair enzymes in rats. 902 Sep 19

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