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)

Deoxynucleoside analogs, AZT and/or ddN, are the therapeutic agents currently utilized to inhibit the human immunodeficiency virus (HIV) reverse transcriptase. The effects of their anabolic products, AZT-triphosphate (AZT-TP) and ddCTP on human cellular DNA metabolic processes were studied using highly purified, structurally and enzymatically defined forms of the two major human host DNA polymerases, alpha and beta, and compared to those of the reverse transcriptase purified from HIV viron. Human DNA polymerase alpha during processive DNA synthesis is able to incorporate AZT-monophosphate (AZT-MP) but not ddCMP into DNA, causing chain termination. During its initial encounter with a primer terminus, polymerase alpha is able to incorporate both AZT-MP and ddCMP into DNA chains. Polymerase beta is able to incorporate AZT-MP and ddCMP into DNA, causing chain termination in both modes of DNA synthesis. Steady state kinetic analyses demonstrate that polymerase alpha inserts one AZT-MP molecule into DNA for every 2500 dTMP molecules incorporated. Polymerase beta incorporates ddCMP with efficiency nearly equal to that of dCMP. HIV reverse transcriptase prefers to incorporate AZT-MP and ddCMP rather than dTMP and dCMP, respectively. The findings described here raise the concern that the capability of the two major host DNA polymerases to incorporate AZT-MP or ddCMP into DNA might cause adverse side effects on human DNA metabolism and mutation in the genomes of patients under long term continuous treatment with AZT and ddC.
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PMID:Human DNA polymerases alpha and beta are able to incorporate anti-HIV deoxynucleotides into DNA. 140 Apr 58

The incorporation of cytosine arabinoside monophosphate (araCMP) into DNA at internucleotide linkages by DNA polymerase alpha (DNA pol alpha) has been investigated by using oligonucleotide primed DNA templates. The products of reactions catalyzed by DNA pol alpha in vitro were analyzed on polyacrylamide gels to measure insertion of araCMP, extension from an araCMP 3' terminus, and binding of the enzyme to an araCMP 3' terminus. The results show that insertion of araCMP opposite dGMP in the DNA template is about 3-fold less efficient than insertion of dCMP. Extension from an araCMP 3' terminus by addition of the next complementary nucleotide is approximately 2000-fold less efficient than extension from a correctly base-paired 3' terminus. In the absence of the second substrate, dNTP, DNA pol alpha binds with approximately equal affinities to DNA templates that contain oligonucleotide primers with araCMP or dCMP positioned at the 3' terminus. In the presence of dNTP, the enzyme extends the araCMP 3' terminus or dissociates, but it is not trapped at the araCMP 3' terminus in a nonproductive ternary complex as is observed at the ddCMP 3' terminus. To determine if slow phosphodiester bond formation contributes to the observed extension rate from the araCMP 3' terminus by DNA pol alpha, oligonucleotide primers with araCMP positioned at the 3' terminus were elongated by addition of the alpha-phosphorothioate analogue of the next complementary nucleotide. The rate of extension from araCMP by addition of 2'-deoxyadenosine 5'-O-phosphorothioate (dAMP alpha S) was 6-fold slower than by addition of dAMP, indicating that bond formation is partially rate limiting in the extension reaction. Thus, inefficient extension from the araCMP 3' terminus is the major determinant contributing to the low incorporation frequency of araCMP into DNA by DNA pol alpha, and this inefficiency can be attributed, in part, to slower phosphodiester bond formation at the araCMP 3' terminus.
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PMID:Incorporation of cytosine arabinoside monophosphate into DNA at internucleotide linkages by human DNA polymerase alpha. 142 52

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.
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PMID:DNA polymerase action on benzo[a]pyrene-DNA adducts. 147 43

Several point and linker insertion mutations in two Cys-His-rich regions of adenovirus (Ad) DNA polymerase (Pol) gene have been expressed in recombinant vaccinia virus. The resulting mutant enzymes were analyzed in vitro for their effects on DNA synthesis activity, on Ad-specific initiation assays, on gel shifts of Ad origin sequences, and on interactions with adenovirus preterminal protein (pTP) and nuclear factor I (NFI). In general, mutants in downstream Cys-His sequences had a pronounced effect in these assays. Mutants in the upstream Cys-His region had a moderate effect on DNA synthesis and elongation but failed to make dCMP-pTP initiation complexes and failed to make specific shifted complexes in a gel retardation assay. These mutants could still bind to pTP and NFI in a coimmunoprecipitation experiment, suggesting that this upstream Cys-His region of Ad Pol is involved either in specific Ad DNA origin binding or in nonspecific DNA binding. Changing residues within Cys doublets in the downstream Cys-His region had pronounced effects on many Ad Pol functions such as DNA synthesis, DNA binding, and in vitro initiation; however, these mutants showed little reduction in binding to pTP and NFI; mutants at other cysteines or histidines within this region of Ad Pol did not appear to have an effect on enzyme function. This observation suggests that the downstream Cys-His region of Ad Pol is important for DNA binding and might fold into a Zn finger motif.
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PMID:Mutations in two cysteine-histidine-rich clusters in adenovirus type 2 DNA polymerase affect DNA binding. 152 43

The frequency of extending m6G.C or m6G.T pairs, when the 3' and 5' flanking neighbors of m6G are either cytosines or thymines, was investigated using primed 25-base-long oligonucleotides and the Klenow fragment of Escherichia coli DNA polymerase I (Kf). The efficiency, Vmax/Km, of extension to the following normal base pair was up to 40-fold greater than for the formation of the m6G.T or m6G.C pair. The frequencies of inserting either dCMP or dTMP opposite these m6G bases did not appear to be different in the two sequences, C-m6G-C and T-m6G-T, but extension was favored in the C-m6G-C sequence. The m6G.T pair extended to a C.G pair most efficiently, indicating that it was not a strong block to continued replication past the template lesion. Thus, m6G.T flanked by cytosines replicates more readily than when flanked by thymines, increasing G----A transitions. These data lend further support to the importance of sequence context in mutagenesis.
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PMID:Kinetics of extension of O6-methylguanine paired with cytosine or thymine in defined oligonucleotide sequences. 174 77

Changes in DNA polymerase alpha activity accompanying tissue development have been well established in several systems. In most cases, DNA polymerase alpha activity decreases with development. Here, we report observed changes in DNA polymerase alpha activity throughout embryonic chicken brain (ECB) development. The level of DNA polymerase alpha activity was found to gradually decrease by 60% (2.3 to 0.8 nmol of [3H]dCMP incorporated/mg protein/h) between 9- and 19-day-old ECB. An enzyme-linked immunosorbent assay of DNA polymerase alpha utilizing monoclonal antibody SJK 237-71 (human KB cell DNA pol-alpha binder) also demonstrated a gradual decrease (up to 60%) of antigen over this same range of development. Analysis of DNA polymerase alpha from 11- and 19-day-old ECB by a 10 to 30% glycerol density gradient revealed a high molecular weight peak sedimenting near catalase (11.3 S) with activity at the 11th day being approximately 3-fold greater than activity at the 19th day. A Western immunoblot analysis utilizing monoclonal antibody SJK 237-71 (against human KB cell DNA polymerase alpha) showed a decrease in DNA polymerase alpha from 186 kilodaltons in 9- and 11-day ECB cell-free extracts to 120 kilodaltons in extracts from 13- to 19-day ECB. The conversion of DNA polymerase alpha from a higher to a lower molecular weight form may be a regulatory mechanism in eukaryotic DNA replication.
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PMID:Developmental expression of the embryonic chicken brain DNA polymerase alpha and its binding with monoclonal antibodies against human KB cell DNA polymerase alpha. 181 37

An extract from Adenovirus type 4 infected HeLa cells was fractionated by ion-exchange and DNA affinity chromatography. One fraction, which bound tightly to single stranded DNA, contained predominantly a protein of apparent molecular weight 65,000 and three less abundant proteins. Immunological cross-reactivity with adenovirus type 2 proteins confirmed the presence of preterminal protein and indicated that the abundant species was the virus coded DNA binding protein. This fraction contained an aphidicolin resistant DNA polymerase activity and in the presence of a linearised plasmid containing the adenovirus type 4 origin of DNA replication efficient transfer of dCMP onto preterminal protein, indicative of initiation, was observed. Furthermore, addition of all four deoxyribonucleotide triphosphates and an ATP regenerating system resulted in the elongation of initiated molecules to generate plasmid molecules covalently attached to preterminal protein. Adenovirus type 4 DNA binding protein was extensively purified from crude adenovirus-4 infected HeLa extract by immunoaffinity chromatography using a monoclonal antibody raised against adenovirus type 2 DNA binding protein. A low level of initiation of DNA replication was detected in the fraction depleted of DNA binding protein but activity was restored by addition of purified DNA binding protein. DNA binding protein therefore plays an important role in the initiation of Ad4 DNA replication.
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PMID:Replication of adenovirus type 4 DNA by a purified fraction from infected cells. 182 16

Oxidative damage to DNA, reflected in the formation of 8-oxo-7-hydrodeoxyguanosine (8-oxodG), may be important in mutagenesis, carcinogenesis and the ageing process. Kuchino et al. studied DNA synthesis on oligodeoxynucleotide templates containing 8-oxodG, concluding that the modified base lacked base pairing specificity and directed misreading of pyrimidine residues neighbouring the lesion. Here we report different results, using an approach in which the several products of a DNA polymerase reaction can be measured. In contrast to the earlier report, we find that dCMP and dAMP are incorporated selectively opposite 8-oxodG with transient inhibition of chain extension occurring 3' to the modified base. The potentially mutagenic insertion of dAMP is targeted exclusively to the site of the lesion. The ratio of dCMP to dAMP incorporated varies, depending on the DNA polymerase involved. Chain extension from the dA.8-oxodG pair was efficiently catalysed by all polymerases tested.
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PMID:Insertion of specific bases during DNA synthesis past the oxidation-damaged base 8-oxodG. 199 44

We report the covalent addition of [32P]dCMP to a protein from group A adenovirus 12 (Ad12)-infected human (KB) cells in vitro, using crude extracts. Synthesis of the 60K protein-dCMP complex required a DNA template containing a terminally located adenovirus replication origin; the protein-dCMP bond was alkali-labile but acid-stable. We therefore conclude that this product is the Ad12 terminal protein precursor (pTP)-dCMP initiation complex for DNA replication. Synthesis of Ad12 pTP-dCMP was specific for dCTP but was stimulated by dATP. In contrast to Ad2, the Ad12 initiation reaction required ATP. Antipeptide antiserum targeted to Ad DNA polymerase inhibited Ad12 pTP-dCMP synthesis in vitro, providing evidence that Ad DNA polymerase catalyse dCMP addition to pTP during initiation.
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PMID:Formation in vitro of the pTP-dCMP initiation complex of human adenovirus type 12. 199 80

DNA polymerase III holoenzyme is responsible for chromosomal DNA synthesis in Escherichia coli and seems to be a major determinant of the fidelity of replication of this organism. Among ten different subunits of the holoenzyme, the alpha subunit, encoded by the dnaE gene, has a polymerase activity, while the epsilon subunit, encoded by the dnaQ gene, is a proofreader with a 3'-5' exonuclease activity. Using poly(dA)/oligo(dT)20 as a template-primer, misincorporation of dGMP, dCMP, and dAMP by the alpha subunit and exonucleolytic editing of those mispairs by the epsilon subunit were investigated. When the polymerization reaction was performed with the alpha subunit, dCMP and dGMP but not dAMP were misincorporated. This would suggest that the polymerase might have a base-selecting function to avoid dA:dA mispairing. A subassembly of the DNA polymerase III consisting of alpha, epsilon, and theta subunits misincorporated only dGMP. This would imply that the proofreading function of the epsilon subunit may correct the dC:dA but not the dG:dA mispair. Addition of a protein encoded by the mutT gene, defects of which cause AT to CG transversions in vivo, diminished the misincorporation of dGMP onto poly(dA) template by the alpha subunit. A dGTPase activity was associated with the MutT protein. The significance of the dGTPase activity in the prevention of dG:dA mispairing is discussed.
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PMID:Molecular mechanisms of replicational fidelity in Escherichia coli. 215 94

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