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)

The effect of several divalent cations on the accuracy of DNA replication in vitro has been examined. Only Be2+ altered the accuracy of DNA synthesis using purified DNA polymerase (DNA nucleotidyltransferase; deoxynucleosidetriphosphate:DNA deoxynucleotidyltransferase; EC 2.7.7.7) from avian myeloblastosis virus. The Be2+-induced base substitutions occurred with all templates and with all nucleotides tested. Analysis of the product by equilibrium density centrifugation and processive hydrolysis with snake venom phosphodiesterase suggested that the noncomplementary nucleotides were present in phosphodiester linkage. Nearest neighbor studies indicated that many of the Be2+-induced errors were present as single base substitutions. The enhancement of error frequency could be duplicated by the pretreatment of the enzyme, but not the template, with Be2+. Glycerol gradient centrifugation dissociated the Be2+-DNA polymerase complex and restored the initial error frequency of the polymerase. Thus, the weak binding of a metal cation to a DNA polymerase could alter the accuracy with which that polymerase copied DNA. Beryllium is a known carcinogen. The potential use of this system as a screening technique to detect chemical mutagens and carcinogens is considered.
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PMID:Metal-induced infidelity during DNA synthesis. 106 82

We report the purification and characterization of a novel DNA helicase from calf thymus tissue. This enzyme partially copurifies with DNA polymerase epsilon* through many of the chromatographic procedures used to isolate it. The enzyme contains an intrinsic DNA-dependent ATPase activity. It can displace short oligonucleotides annealed to long single stranded substrates, in an ATP-dependent reaction. Use of this assay indicates that the DNA helicase translocates in a 3' to 5' direction with respect to the substrate strand to which it is bound. Maximal efficiency of displacement is accomplished by hydrolysis of (d)ATP as cofactor, however, (d)CTP can also be utilized resulting in a 5-fold decrease in the level of displacement. Displacement activity is enhanced by the presence of saturating amounts of Escherichia coli single stranded DNA-binding protein, not affected by the presence of phage T4 gene 32 protein, and inhibited by human replication factor A. The DNA helicase has a molecular mass of approximately 104 kDa as measured by denaturing gel electrophoresis, and an S value of 5.4 obtained from glycerol gradient sedimentation. Direct [alpha-32P]ATP cross-linking labels a protein of molecular mass approximately 105 kDa, providing further evidence that this polypeptide contains the helicase active site. In view of the differences in the properties of this helicase from four others recently identified in calf and designated A through D, we propose the name helicase E.
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PMID:A novel DNA helicase from calf thymus. 132 24

Analysis of fractions containing purified DNA polymerase epsilon from calf thymus has revealed the presence of a 5' to 3' exonuclease activity that is specific for a single strand of duplex DNA. This activity is capable of degrading a 3'-labeled oligonucleotide hybridized to M13mp18 DNA. When a second oligonucleotide primer is annealed 3 bases upstream, degradation of the downstream primer is strictly dependent on DNA synthesis from the upstream primer. Replacement of the downstream primer by an oligoribonucleotide of identical sequence results in a similar pattern of exonucleolytic activity. The activity has been highly purified and found to cosediment in glycerol gradients with a peptide of 56 kDa as judged by SDS/PAGE analysis. Effects of calf DNA polymerase alpha and delta on exonuclease activity are also observed but with differences in the pattern of products.
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PMID:A 5' to 3' exonuclease functionally interacts with calf DNA polymerase epsilon. 132 95

Proliferating cell nuclear antigen (PCNA) and PCNA-dependent DNA polymerase delta were partially purified and characterized from rabbit bone marrow. Rabbit DNA polymerase delta sediments at 8.2 S upon glycerol density gradient centrifugation. Similar to calf thymus PCNA-dependent DNA polymerase delta, a 125-123-kDa doublet and 48-kDa polypeptides correlate with DNA polymerase activity. Western blotting of rabbit DNA polymerase delta with polyclonal antibody to calf thymus PCNA-dependent DNA polymerase delta gives the same results as calf thymus delta; the 125-123-kDa doublet is recognized. PCNA-dependent DNA polymerase delta is resistant to inhibition by dideoxynucleotides and is relatively insensitive to inhibition by N2-[p-(n-butyl)phenyl]dGTP. A 3'-->5' exonuclease copurifies with the DNA polymerase. The processivity of DNA polymerase delta alone is very low but greatly increases with the addition of PCNA from rabbit bone marrow or calf thymus. Comparative studies of the original DNA polymerase delta from rabbit bone marrow demonstrate a lack of recognition by antibodies to calf thymus delta and a high degree of processivity in the absence of PCNA. Additionally, the originally described DNA polymerase delta is a single polypeptide of 122 kDa. These features would recategorize the original delta to the epsilon category by recently proposed convention. PCNA-dependent DNA polymerase delta is a relatively minor component of rabbit bone marrow compared to DNA polymerase alpha and PCNA-independent DNA polymerase delta (epsilon), the relative proportions being alpha, 60%; delta, 7%; and epsilon, 30%.
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PMID:PCNA-dependent DNA polymerase delta from rabbit bone marrow. 136 Nov 52

The bacteriophage PRD1 DNA polymerase gene (gene I) has been cloned into the expression vector pPLH101 under the control of the lambda pL promoter. Tailoring of an efficient ribosome binding site in front of the gene by polymerase chain reaction led to a high level heat-inducible expression of the corresponding gene product (P1) in Escherichia coli cells. Expression was confirmed in vivo by complementation of phage PRD1 DNA polymerase gene mutants and in vitro by formation of the genome terminal protein P8-dGMP replication initiation complex. Expressed PRD1 DNA polymerase was purified to apparent homogeneity in an active form. DNA polymerase, 3'-5'-exonuclease, and P8-dGMP replication initiation complex formation activities cosedimented in glycerol gradient with a protein of 65 kDa, the size expected for PRD1 DNA polymerase. The DNA polymerase was active on DNase I-activated calf thymus DNA, poly(dA).oligo(dT) and poly(dA-dT) primer/templates as well as on native phage PRD1 genome. The 3'-5'-exonuclease activity was specific for single-stranded DNA and released mononucleotides. No 5'-3'-exonuclease activity was detected. The inhibitor/activator spectrum of the PRD1 DNA polymerase was also studied. An in vitro replication system with purified components for bacteriophage PRD1 was established. Formation of the P8-dGMP replication initiation complex was a prerequisite for phage DNA replication, which proceeded from the initiation complex and yielded genome length replication products.
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PMID:Overexpression, purification, and characterization of Escherichia coli bacteriophage PRD1 DNA polymerase. In vitro synthesis of full-length PRD1 DNA with purified proteins. 165 59

Spinach chloroplast DNA polymerase was shown to copurify with a 3' to 5' exonuclease activity during DEAE-cellulose, hydroxylapatite, and heparin-agarose column chromatography. In addition, both activities comigrated during nondenaturing polyacrylamide gel electrophoresis and cosedimented through a glycerol gradient with an apparent molecular weight of 105,000. However, two forms of exonuclease activity were detected following velocity sedimentation analysis. Form I constituted approximately 35% of the exonuclease activity and was associated with the DNA polymerase, whereas the remaining activity (form II) was free of DNA polymerase and exhibited a molecular weight of approximately 26,500. Resedimentation of form I exonuclease generated both DNA polymerase associated and DNA polymerase unassociated forms of the exonuclease, suggesting that polymerase/exonuclease dissociation occurred. The exonuclease activity (form I) was somewhat resistant to inhibition by N-ethylmaleimide, whereas the DNA polymerase activity was extremely sensitive. Using in situ detection following SDS-polyacrylamide activity gel electrophoresis, both form I and II exonucleases were shown to reside in a similar, if not identical, polypeptide of approximately 20,000 molecular weight. Both form I and II exonucleases were equally inhibited by NaCl and required 7.5 mM MgCl2 for optimal activity. The 3' to 5' exonuclease excised deoxyribonucleoside 5'-monophosphates from both 3'-terminally matched and 3'-terminally mismatched primer termini. In general, the exonuclease preferred to hydrolyze mismatched 3'-terminal nucleotides as determined from the Vmax/Km ratios for all 16 possible combinations of matched and mismatched terminal base pairs. These results suggest that the 3' to 5' exonuclease may be involved in proofreading errors made by chloroplast DNA polymerase.
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PMID:Identification and characterization of a 3' to 5' exonuclease associated with spinach chloroplast DNA polymerase. 165 61

Wheat DNA polymerase A has been purified from wheat germ. The previous purification procedure (Castroviejo, M. et al. (1979) Biochem. J. 181, 183-191; Tarrago-Litvak, L. et al. (1975) FEBS Lett. 59, 125-130), has been improved leading to a higher degree of purity. Several biochemical properties of the enzyme are described. Interestingly, wheat DNA polymerase A is able to copy natural poly(A)+ mRNA into cDNA, in a way that is similar to that of the human immunodeficiency virus reverse transcriptase (HIV-RT). All four dXTP and the oligo dT primer were required for cDNA synthesis. The cDNA product was completely digested in the presence of DNase I and predigestion of the mRNA template with RNase decreased dramatically the cDNA synthesis. The animal DNA polymerase gamma can not copy natural mRNA. Substances, known to alter the enzymatic activities have been used to compare enzymes properties. In the presence of glycerol, ethidium bromide or spermine, wheat DNA polymerase A, HIV-RT and DNA polymerase gamma behave similar and they differ from animal DNA polymerase alpha. Nevertheless, DNA polymerase A is more resistant than HIV-RT and DNA polymerase gamma to the chain terminator ddTTP, while the wheat enzyme is more inhibited than DNA polymerase gamma but more resistant than HIV-RT in the presence of N3-TTP.
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PMID:Wheat embryo DNA polymerase A reverse transcribes natural and synthetic RNA templates. Biochemical characterization and comparison with animal DNA polymerase gamma and retroviral reverse transcriptase. 169 Oct 20

A primase-reverse-transcriptase of Halobacterium halobium was purified by column chromatography on DEAE-cellulose, hydroxyapatite and carboxymethyl-cellulose, followed by sedimentation on a glycerol gradient. The enzyme is a multifunctional enzyme containing reverse transcriptase. DNA polymerase and RNase H activities and does not require a performed primer to initiate DNA synthesis. Using a single-stranded DNA as template, this enzyme synthesizes oligonucleotides (8-12 bases) that can be used a primer by Escherichia coli DNA nucleotidyltransferase I (DNA polymerase I, Klenow fragment). Two polypeptides of 67 and 57 kDa were found after 14750-fold purification of the enzyme.
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PMID:Reverse transcriptase in archaebacteria. Purification and characterization of a primase-reverse-transcriptase complex from Halobacterium halobium. 170 56

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

alpha-like and beta-like DNA polymerases have previously been isolated from a halophilic archaebacterium Halobacterium halobium. In this report, we show that the alpha-like DNA polymerase has an associated 3' to 5'-exonuclease activity which is specific for single-stranded DNA, sensitive to both aphidicolin and N-ethylmaleimide and dependent on high salt concentrations like the polymerase activity. As this DNA polymerase has been shown to contain a primase activity, it may be considered as the equivalent to both eukaryotic DNA polymerases alpha and delta. As shown by glycerol-gradient centrifugation and electrophoresis under denaturing conditions, the beta-like polymerase would appear to have a monomeric structure and comprise of a single 65-kDa polypeptide. This DNA polymerase has both 3' to 5'-exonuclease and 5' to 3'-exonuclease activities which, contrary to polymerase activity, are inhibited by high salt concentrations.
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PMID:Exonuclease activities associated with DNA polymerases alpha and beta of the archaebacterium Halobacterium halobium. 185 84


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