EC:2.7.7.7 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

To study the proliferative response of hematopoietic cells to growth factors at the molecular level, we developed a cell-free system for growth factor-dependent initiation of genomic DNA replication. Nuclei were isolated from the IL-3-dependent cell line NFS/N1-H7 after a 10-h period of IL-3 deprivation. Cytosolic and membrane-containing subcellular fractions were prepared from proliferating NFS/N1-H7 cells. Nuclei from the nonproliferating cells (+/- IL-3) showed essentially no incorporation of [3H]thymidine during a 16-h incubation with a mixture of unlabeled GTP, ATP, UTP, CTP, dGTP, dATP, dCTP, and [3H]dTTP. When the combination of IL-3, a cytosolic fraction, and a membrane-containing fraction from proliferating cells was added to nuclei from nonproliferating cells, a burst of [3H]thymidine incorporation into DNA began after a 12-h lag period, attained a maximal rate at 16 h, and reached a level of 860 pmol thymidine/10(6) nuclei at 24 h (corresponding to replication of approximately 56% total mouse genomic DNA). This DNA synthesis was inhibited approximately 90% by the specific DNA polymerase alpha inhibitor aphidicolin. Deletion of a single cellular component or IL-3 from the system resulted in a marked reduction of DNA replication (-membrane, 80 +/- 4%; -cytosol, 90% +/- 4%; -IL-3, 74 +/- 7% inhibition). This model requires a growth factor (IL-3), a sedimentable cell fraction containing its receptor and possibly additional membrane-associated components, and a cytosolic fraction. It appears to recapitulate the molecular events required for progression from early G1 to S phase of the cell cycle induced by IL-3 binding to its receptor.
...
PMID:Growth factor-dependent initiation of DNA replication in nuclei isolated from an interleukin 3-dependent murine myeloid cell line. 210 81

A single-stranded DNA-dependent ATPase that cofractionates during the early stages of purification of a multiprotein DNA polymerase alpha complex from HeLa cells has been purified to homogeneity. The ATPase is part of a 16S multienzyme DNA polymerase alpha complex that is fully active in SV40 DNA replication in vitro. The ATPase hydrolyzes ATP to ADP in a reaction that is completely dependent on the presence of DNA. DNA in single-stranded form is strongly preferred as a cofactor, and polydeoxynucleotides with adenine or thymidine residues are highly effective. Glycerol gradient sedimentation showed that the purified ATPase sedimented at an s20,w of 7 S, and polyacrylamide gel electrophoresis under denaturing conditions reveals two polypeptides with relative molecular weights of 83,000 and 68,000. Both of these polypeptides have purine nucleotide binding sites as revealed by photoaffinity cross-linking experiments. ATP binds to the two subunits more efficiently than GTP, and CTP or UTP does not cross-link with the two polypeptides. DNA synthesis catalyzed by purified HeLa cell DNA polymerase alpha-primase is stimulated in the presence of ATPase and ATP at an optimum concentration of 2 mM. Analysis of the DNA product by gel electrophoresis indicates that with poly(dT) but not phage M13 DNA as template the ATPase overcomes a lag and decreases the length of nascent DNA chains synthesized by the DNA polymerase alpha-primase complex.
...
PMID:Single-stranded-DNA-dependent ATPase from HeLa cells that stimulates DNA polymerase alpha-primase activity: purification and characterization of the ATPase. 214 84

Effects of ATP and some other nucleotides (AMP, ADP, CTP, GTP, UTP and dATP) on reparative DNA synthesis and repair patch ligation in bleomycin-pretreated permeable mouse sarcoma cells were studied. Reparative DNA synthesis was significantly stimulated by 2.5 mM ATP, ADP or dATP. The stimulation was observed on both DNA polymerase alpha- and beta-dependent reparative DNA synthesis. ATP concentration required for repair patch ligation was much lower than that required for the stimulation of reparative DNA synthesis. An apparent Km value for ATP of the repair patch ligation was about 40 microM. ADP supported repair patch ligation after being converted into ATP by adenylate kinase in permeable cells.
...
PMID:Effects of ATP and other nucleotides on DNA repair synthesis in bleomycin-pretreated permeable mouse sarcoma cells. 244 62

The nearly homogeneous 9 S DNA polymerase alpha from calf thymus contains a primase activity that allows priming of DNA synthesis on single-stranded templates in the presence of ribonucleoside triphosphates. Both on synthetic and natural single-stranded templates, RNA primers of 8-15 nucleotides in length are formed. In the absence of dNTPs, primers of some hundred nucleotides in length are observable. ATP and/or GTP are required for the priming reaction. UTP and CTP cannot initiate the RNA synthesis. M13 single-stranded DNA can be converted to the nicked double helical form upon primase-primed replication by the 9 S enzyme. Priming occurs mostly at specific sites on the M13 genome and replication products of up to 6000 nucleotides in length are formed. In the presence of the single-stranded DNA binding protein from Escherichia coli, specificity of priming is strongly increased. The primase is inhibited by salt and actinomycin; it is insensitive to alpha-amanitin and N-ethylmaleimide. Due to the strong complex formation between DNA polymerase and primase, it has not been possible to separate the two activities of the multisubunit 9 S enzyme.
...
PMID:The primase activity of DNA polymerase alpha from calf thymus. 257 65

DNA primase-DNA polymerase alpha, purified 53,000-fold from CV-1 cells, synthesized predominantly (p)ppA(pA)6-primed DNA on a poly(dT) template. About 80% of the RNA primers synthesized on an M13 DNA template were (p)ppA/G(pN)5-7, and 20% were (p)ppA/G(pN)0-4. RNA primer size was determined by gel electrophoresis after removing nascent DNA with phage T4 DNA polymerase 3'-5' exonuclease, leaving a single dNMP at the 3'-end of the RNA primer, and the terminal 5'-(p)ppN residue was determined by "capping" with [alpha-32P]GTP using vaccinia guanylyl-transferase. The processivity of DNA synthesis initiated by de novo synthesis of RNA primers was the same as that initiated on pre-existing RNA primers (10-15 dNMPs), although initiation on pre-existing primers was strongly preferred. Primers always began with A or G, even at high levels of CTP or UTP, although the ratio of A to G varied from 4:1 to 1:1 depending on the relative concentrations of ATP and GTP in the assay. ATP and GTP had no effect on primer length, but the fraction of shorter RNA primers increased 2-fold with higher concentrations of CTP or UTP. Nearest-neighbor analysis revealed a preference for purine ribonucleotides at RNA covalently linked to the 5'-end of DNA (RNA-p-DNA) junctions, and increasing the concentration of a single rNTP increased slightly its presence at RNA-p-DNA junctions. Thus, the base composition and size of RNA primers synthesized by DNA primase-DNA polymerase alpha is modulated by the relative concentrations of ribonucleoside triphosphates.
...
PMID:DNA primase-DNA polymerase alpha from simian cells. Modulation of RNA primer synthesis by ribonucleoside triphosphates. 258 49

Racemic carbocyclic analogues of dTTP [(+/-)-C-dTTP] and its ribo counterpart, 5-methyl-UTP [(+/-)-C-m5UTP] were synthesized and examined, in comparison with dTTP and UTP (and m5UTP), as potential substrates of E. coli DNA and RNA polymerases, respectively. Unexpectedly, only a very low (terminal) incorporation of C-dTMP into DNAs of different structure was observed, C-dTTP did not serve as a substrate for chain elongation by the Klenow DNA polymerase. Inhibition of DNA replication was, however, observed in the presence of (+/-)-C-dTTP. The UTP analogue, (+/-)-C-m5UTP proved neither a substrate nor an inhibitor of the RNA polymerase enzyme.
...
PMID:Carbocyclic analogues of dTTP and UTP: properties in polymerase enzyme-catalyzed reactions. 332 Sep 75

An aphidicolin-sensitive DNA polymerase was purified from extracts of Halobacterium halobium. The analysis of this alpha-like DNA polymerase on polyacrylamide gels under denaturing conditions revealed two peptides with molecular masses of 70 kDa and 60 kDa in equal amounts. Like the DNA polymerase alpha isolated from eukaryotes, the alpha-like DNA polymerase possesses primase activity using UTP and polydeoxyadenylate as template. The primase activity was sensitive to aphidicolin and inhibited by an antiserum against the alpha-like DNA polymerase of H. halobium. The primase activity was dependent on the presence of high salt concentrations.
...
PMID:DNA primase activity found in an alpha-like DNA polymerase obtained from Halobacterium halobium. 340 54

Anticapsin, the terminal epoxyaminoacid moiety of tetaine, inhibits irreversibly growth of HeLa S3 cells. The antibiotic decreases to a similar extent incorporation of 3H-labelled precursors into nucleic acids and protein in intact cells: inhibition of protein synthesis prevails on prolonged incubation. Also incorporation of [3H]dTTP and [3H]UTP is inhibited in the presence of anticapsin into permeabilized cells. These effects, however, are not due to the interference with DNA or RNA polymerases since anticapsin only slightly suppresses RNA polymerase activity and has no effect on DNA polymerase in the cell-free systems. The results indicate that the mechanism of antiproliferative action of anticapsin in HeLa S3 cells differs from that of tetaine and imply that inhibition of protein synthesis might be the primary effect of anticapsin.
...
PMID:Pleiotropic effect of anticapsin on HeLa S3 cells. 345 99

Ribonucleoside and deoxyribonucleoside triphosphate pools have been measured in Escherichia coli infected with bacteriophage T4 DNA polymerase mutator, wild type, and antimutator alleles during mutagenesis by the base analogue 2-aminopurine. ATP and GTP pools expand significantly during mutagenesis, while CTP and UTP pools contract slightly. The DNA polymerase (gene 43) alleles and an rII lesion perturb normal dNTP pools more than does the presence of 2-aminopurine. We find no evidence that 2-aminopurine induces mutations indirectly by causing an imbalance in normal dNTP pools. Rather, it seems likely that, by forming base mispairs with thymine and with cytosine, 2-aminopurine is involved directly in causing bidirectional A.T in equilibrium G.C transitions. The ratios for 2-aminopurine deoxyribonucleoside triphosphate/dATP pools are 5-8% for tsL56 mutator and 1-5% for tsL141 antimutator and 43+ alleles. We conclude that the significant differences observed in the frequencies of induced transition mutations in the three alleles can be attributed primarily to the properties of the DNA polymerases with their associated 3'-exonuclease activities in controlling the frequency of 2-aminopurine.cystosine base mispairs.
...
PMID:Ribonucleoside and deoxyribonucleoside triphosphate pools during 2-aminopurine mutagenesis in T4 mutator-, wild type-, and antimutator-infected Escherichia coli. 388 83

A simple acetoxymercuration reaction for introducing covalently bound mercury atoms into nucleotides is described. The 5-mercuriacetate derivatives of UTP, CTP, dUTP, and dCTP, as well as the 7-mercuriacetate derivative of 7-deazaATP, have been prepared by this procedure and tested as substrates for nucleic acid polymerases. These nucleotides, in the absence of added mercaptan, are not polymerized and in most instances are potent enzyme inhibitors. However, conversion of these mercuriacetates to mercurithio compounds in situ by the addition of one of various mercaptans, yields nucleoside triphosphates that are excellent substrates for all polymerases tested: Escherichia coli and T7 RNA polymerases, DNA polymerase I of E. coli, DNA polymerase of avian myeloblastosis virus, and calf-thymus terminal deoxynucleotidyl transferase. By varying the mercaptan used to promote syntheses it is possible to access certain structural limitations in the enzyme's nucleoside triphosphate binding site. These mercurinucleotides appear to have a diversity of potential applications: (1) as heavy-atom reagents for crystallographic and microscopic studies; (2) as affinity probes for enzymes sensitive to sulfhydryl modification; (3) as steric probes of substrate-binding sites on enzymes; and (4) as reagents for forming covalent protein-polynucleotide complexes.
...
PMID:The synthesis and enzymatic polymerization of nucleotides containing mercury: potential tools for nucleic acid sequencing and structural analysis. 436 67

<< Previous 1 2 3 4 5 Next >>