Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

It has often been suggested that the high molecular weight DNA polymerase alpha of eukaryotes plays a role in de novo replication of DNA, while the low molecular weight polymerase beta is involved in repair replication. Previous studies have shown that when diethylnitrosamine is fed in the diet to rats it causes after a few weeks an increase in de novo replication of DNA, which then returns to normal values. In contrast, repair replication may be expected to continue throughout the feeding period. Study of DNA polymerase activity in livers of animals during carcinogenesis showed that an increase in polymerase alpha occurred at the time of increased de novo replication, while there was a gradual increase in polymerase beta during the time diethylnitrosamine was present in the diet. When diethylnitrosamine treatment was stopped, there was a rapid drop in polymerase beta activity. These results support the view that the polymerase alpha is involved in DNA replication, that the polymerase beta functions in repair replication, and that the beta enzyme can be induced by chronic damage to DNA.
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PMID:Sequential changes in DNA polymerases alpha and beta during diethylnitrosamine-induced carcinogenesis. 53 37

The effect of metal activators on the fidelity of DNA synthesis has been examined. Using the DNA polymerase from avian myeloblastosis virus, the accuracy of Co2+-, M2+-, and Ni2+-activated DNA synthesis was determined with different polynucleotide templates. With poly[d(A-T)] as the template, the error frequency for dCMP incorporation was 1:1400, 1:1100, and 1:600 for Mg2+, Co2+, and Mn2+, respectively, at maximally activating concentrations. The error frequency was invariant with respect to [Mg2+] but increased with greater than activating concentrations of Co2+ and Mn2+. This increase resulted from differential rates of complementary and noncomplementary nucleotide incorporation. The enhanced error frequency was nonspecific as it occurred with all polynucleotide templates and with all noncomplementary deoxy- and ribonucleotides which were tested. Nearest neighbor analyses of the reaction products indicated that the noncomplementary deoxynucleotides were incorporated as single base substitutions. The fidelity of Ni2+-activated DNA synthesis was invariant with respect to [Ni2+] and was similar to that obtained using Mg2+. During DNA synthesis with Mg2+, the addition of Co2+, Mn2+, or Ni2+ resulted in a decrease in the fidelity of DNA synthesis. The relationship between decreases in the fidelity of DNA synthesis and metal mutagenesis, or carcinogenesis, or both, is considered.
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PMID:On the fidelity of DNA replication. Effect of metal activators during synthesis with avian myeloblastosis virus DNA polymerase. 86 97

Ganciclovir (9-(1,3-dihydroxy-2-propoxymethyl) guanine, DHPG) is an acyclovir analog with excellent antiviral activity against human cytomegalovirus (CMV). Clinically, CMV infection occurs in from 60 to 90% of all renal transplant recipients and it is responsible for significant patient morbidity and graft loss. The likelihood of infection is closely related to the CMV status of both donor and recipient, with the greatest risk arising in the combination of a seronegative patient receiving a seropositive organ. Intracellularly, DHPG is converted to DHPG-triphosphate, which competitively inhibits DNA polymerase. This conversion is accelerated up to 10-fold in virally infected cells, providing some selectivity of action. Uncontrolled studies demonstrated DHPG efficacy in CMV disease, but experience in children remains limited. Although bone marrow suppression is a major immediate toxicity, long-term concerns about carcinogenesis and infertility mandate careful patient selection. Recently at the University of Minnesota, 93 solid organ recipients (45 renal transplants) including some children have been treated for tissue-invasive CMV with DHPG. All had a characteristic clinical picture and either a positive CMV culture or a biopsy with CMV inclusions. The patients received i.v. DHPG (10 mg/kg/day) with appropriate adjustments for renal function. In renal allograft recipients, 89% recovered within 30 days, although 21% had to be retreated with DHPG. Although no patient died, allograft survival was significantly reduced (P = 0.02). An additional subgroup of patients (N = 18) who had both biopsy-proven rejection and invasive CMV disease were simultaneously treated for both processes. All of these patients recovered from their CMV infection, but two grafts were lost to rejection.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Use of ganciclovir for cytomegalovirus infection. 132 40

Adducts produced by modification of DNA with benzo[a]pyrene diolepoxide (BPDE) are known to inhibit both DNA and RNA synthesis. This phenomenon has been used as a method for determining the distribution of carcinogen binding within defined DNA sequences. A critical comparison of different enzyme activities on adducted DNA is needed, since different enzymes may process adducted DNA differently. Thus, we compared blocks in DNA polymerase activity with that of an RNA polymerase and with an exonuclease at single base resolution. BPDE adducts blocked the progression of cloned T7 DNA polymerase (Sequenase) in a dose-dependent manner. Although the majority of these blocks were at one base prior to adducted guanines, we also observed some blocks opposite specific guanines, suggesting that in some sequences the polymerase inserted a base opposite the modified guanine. Digestion with T4 DNA polymerase (3'----5') exonuclease activity was also blocked in BPDE-adducted DNA; however, fragments produced by blocks in T4 exonuclease migrated two or more bases longer than the corresponding guanine. Mapping of adduct distributions using both Sequenase and T4 exonuclease gave similar results, demonstrating that a long tract of guanines was preferentially modified, and within a polyguanine sequence, the 5' guanines were more heavily modified than the 3' guanines. Transcription of adducted DNA by SP6 RNA polymerase was also inhibited in a dose-dependent manner. However, adducted bases which posed strong blocks to the DNA polymerase were not always strong blocks to the RNA polymerase. Thus, in terms of adduct distribution, Sequenase and T4 exonuclease provided more consistent results than the RNA polymerase, since blockage of the RNA polymerase correlated poorly with guanines.
Carcinogenesis 1992 Sep
PMID:DNA polymerase, RNA polymerase and exonuclease activities on a DNA sequence modified by benzo[a]pyrene diolepoxide. 132 70

A 16mer oligonucleotide containing a single guanine residue at nucleotide 13 from the 3' end was treated with the (+)-enantiomer of the 7,8-dihydrodiol 9,10-epoxide of benzo[a]pyrene (B[a]P). Oligonucleotides containing either an adduct in which the epoxide ring was opened trans or cis by the amino group of the guanine residue were separated by chromatography and identified by 32P postlabeling and circular dichroism spectroscopy. In the presence of nucleotide triphosphates and DNA polymerase (either Sequenase, version 2.0 or human polymerase alpha), it was found that the B[a]P adducts inhibited extension of an 11mer primer opposite the nucleotide 3' to the adduct in the template. Under various conditions, this inhibition was greater for the cis adduct than for the trans adduct. After a 10 min incubation with Sequenase, primer extension was reduced to approximately 20% of that seen with unmodified oligonucleotide by the trans adduct and was almost completely inhibited by the cis adduct. When a 12mer primer was used to examine nucleotide incorporation directly across from the guanine or adducted guanine residues, it was clear that deoxycytidylic acid was preferentially incorporated in all cases but that the incorporation was severely inhibited by both the cis and trans adducts. These findings suggest that a cis adduct is a more effective block to replication than a trans adduct, and that these adducts may not be very efficient mutagenic lesions.
Carcinogenesis 1992 Dec
PMID:DNA polymerase action on benzo[a]pyrene-DNA adducts. 147 43

Calf thymus single-stranded (ss) DNA was modified with the N-sulfate conjugate of N-hydroxy-2-acetylaminofluorene (N-OH-AAF), N-hydroxy-4'-fluoro-4-acetylaminobiphenyl (N-OH-FAABP) or N-hydroxy-4-acetylaminobiphenyl (N-OH-AABP) to yield predominantly N-acetylated adducts of 2-aminofluorene, 4-aminobiphenyl and 4'-fluoro-4-amino-biphenyl respectively to C8 of deoxyguanosine (dG-C8-AAF, dG-C8-AABP and dG-C8-FAABP). The modified DNAs were used as templates for in vitro DNA synthesis. DNA replication on the randomly primed template was inhibited as compared to control (unmodified) DNA to the same extent by all three types of adducts, irrespective of whether polymerization was performed by Escherichia coli DNA polymerase I, modified T7 DNA polymerase or Thermus aquaticus (Taq) DNA polymerase. In addition, all three types of adducts completely blocked replication of ss phi X174 in an E. coli host: on average one adduct per DNA molecule was sufficient to inactivate the bacteriophage. Polyacrylamide gel electrophoresis of DNA fragments synthesized by E. coli DNA polymerase I on FAABP- and AABP-modified ss M13mp9 DNA templates, showed that termination occurred predominantly one nucleotide before (and occasionally opposite) a modified deoxyguanosine in the template. However, the deacetylated adducts, dG-C8-AF, dG-C8-ABP and dG-C8-FABP (obtained by reacting DNA with their N-trifluoroacetyl-N-acetoxy esters) were frequently bypassed during replication of ss phi X174 in E. coli, though with different efficiencies: 1 out 7, 1 out of 2 and 1 out of 3 adducts on average respectively caused bacteriophage inactivation. Polyacrylamide gel electrophoresis showed that termination of DNA synthesis occurred at least as frequently opposite as 3' to a modified deoxyguanosine in the template.
Carcinogenesis 1992 May
PMID:N-acetylated and deacetylated 4'-fluoro-4-aminobiphenyl and 4-aminobiphenyl adducts differ in their ability to inhibit DNA replication of single-stranded M13 in vitro and of single-stranded phi X174 in Escherichia coli. 158 87

Monoacetyl-hydroxyaminoquinoline 1-oxide (Ac-HAQO) is a model of the ultimate form of the carcinogen 4-nitroquinoline 1-oxide and so it is useful to characterize its reactions with DNA. We find that Ac-HAQO produces one single-strand break (SSB) for every 60 adducts formed in a reaction with supercoiled DNA. The SSBs do not appear to be formed by a free radical reaction and they are distributed throughout the DNA molecule without regard to nucleotide specificity. Unique DNA fragments were reacted with Ac-HAQO. These substrates could not be degraded by the 3'-5' exonuclease action of T4 DNA polymerase unless they were first cleaved by a restriction endonuclease. This indicated that the ends of all the DNA molecules were blocked by adduct formation in spite of the low overall frequency of adducts per DNA molecule.
Carcinogenesis 1991 Jun
PMID:The reaction of acetyl-4-hydroxyaminoquinoline 1-oxide with DNA: quantitation of single-strand break formation and hyper-reactivity of DNA termini. 164 83

Human fibroblasts repair DNA damaged by bleomycin through both short-patch and long-patch pathways, mediated by an aphidicolin-resistant (beta) and aphidicolin-sensitive (delta) DNA polymerase respectively (DiGiuseppe, J.A. and Dresler, S.L. (1989) Biochemistry, 28, 9515-9520). Despite certain similarities, aphidicolin-sensitive repair synthesis induced by bleomycin can be distinguished genetically and biochemically from that elicited by UV radiation. Permeable xeroderma pigmentosum fibroblasts of complementation groups A and G, completely deficient in UV-induced repair, display aphidicolin-sensitive repair synthesis dependent upon dose of bleomycin. Furthermore, the ribonucleotide dependence of long-patch repair induced by bleomycin differs from that of UV repair with respect to substrate specificity and apparent Km for ATP. This novel ATPase activity mediates a step prior to polymerization. By contrast, short-patch repair synthesis does not require ATP. These data suggest that, in addition to short-patch repair, human cells possess two distinct long-patch excision repair pathways. We propose that these pathways represent strand-break, base and nucleotide excision repair respectively.
Carcinogenesis 1990 Jun
PMID:Aphidicolin-sensitive DNA repair synthesis in human fibroblasts damaged with bleomycin is distinct from UV-induced repair. 169 20

N-(Deoxyguanosin-8-yl)-2-(acetylamino)fluorene (AAF-G) adducts in the DNA of bacteriophage M13 can be converted to N-(deoxyguanosin-8-yl)-2-aminofluorene (AF-G) adducts in situ by treatment with 1.0 M NaOH for 45 min at room temperature. The conversion is accompanied by a dramatic increase in the transfection activity of the samples which is correlated with the measured deacetylation of the acetylaminofluorene adduct. The pair of substrates (AAF-G/AF-G) with adducts at identical places in the DNA has been used to study bypass synthesis catalyzed by T7 DNA polymerase, an altered T7 DNA polymerase from which the 3'----5' exonuclease has been genetically removed by an 84 nucleotide deletion (Sequenase 2), T4 DNA polymerase and Escherichia coli DNA polymerase I. All polymerases appear blocked at acetylaminofluorene lesions. Sequenase 2 is apparently able to add nucleotides opposite the acetylaminofluorene lesion but is unable to catalyze further elongation. T7 DNA polymerase, including thioredoxin and with an active 3'----5' exonuclease, is unable to bypass aminofluorene adducts, whereas Sequenase 2 bypasses the lesions readily. The data support the view that the elongation step is rate limiting in synthesis past lesions and that low 3'----5' exonuclease activity allows the priming nucleotide opposite the altered template site to remain in position long enough for elongation past particular adducts.
Carcinogenesis 1990 Dec
PMID:Role of DNA polymerase 3'----5' exonuclease activity in the bypass of aminofluorene lesions in DNA. 170 68

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.
Carcinogenesis 1991 Nov
PMID:Bypass of a hydrocarbon adduct in an oligonucleotide template mediated by mispairing adjacent to the adduct. 171 21


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