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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 restoration of mitosis and growth of the prostate gland of castrated animals by androgens provides a favourable experimental system for studying the hormonal regulation of enzymes engaged in DNA replication. 2. Many DNA polymerase activities were identified in the prostate gland, but only a 9S form with a particular preference for denatured DNA as template was conspicuously enhanced by androgenic stimulation. 3. Thymidine kinase also provided a sensitive indicator of the hormonal regulation of DNA replication, and on electrophoretic criteria, one discrete form of the enzyme appeared precisely with the onset of mitoris. 4. Evidence is presented to support the view that DNA ligase activity is intimately associated in the process of DNA replication in the prostate gland. 5. A spectrum of deoxyribonuclease activities is present in the prostate gland, but only one form (pI7.0) can safely be said to be implicated in the process of DNA replication. 6. Androgenic stimulation of the prostate gland leads to the appearance of a component capable of denaturing or unwinding prostate DNA. This component is seemingly distinct from RNA or DNA polymerase activities on the basis of several distince physicochemical characteristics. 7. The conspicuous feature of all the changes in enzyme activities evoked by androgens in the prostate gland is their acute tissue- and steroid-specificity. Such changes could not be mimicked in liver or spleen and the regulatory role of androgens could not be simulated by other classes of steroid hormones. Particularly on the basis of studies with the anti-androgen cyproterone acetate, it is concluded that the changes are initially mediated by the androgen-receptor system and the high-affinity binding of 5alpha-dihydrotestosterone in the prostate gland. 8. The results are discussed in the context of the mechanism of action of androgens.
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PMID:The androgenic regulation of the activities of enzymes engaged in the synthesis of deoxyribonucleic acid in rat ventral prostate gland. 121 19

The DNA replication system of bacteriophage T4 serves as a relatively simple model for the types of reactions and protein-protein interactions needed to carry out and coordinate the synthesis of the leading and lagging strands of a DNA replication fork. At least 10 phage-encoded proteins are required for this synthesis: T4 DNA polymerase, the genes 44/62 and 45 polymerase accessory proteins, gene 32 single-stranded DNA binding protein, the genes 61, 41, and 59 primase-helicase, RNase H, and DNA ligase. Assembly of the polymerase and the accessory proteins on the primed template is a stepwise process that requires ATP hydrolysis and is strongly stimulated by 32 protein. The 41 protein helicase is essential to unwind the duplex ahead of polymerase on the leading strand, and to interact with the 61 protein to synthesize the RNA primers that initiate each discontinuous fragment on the lagging strand. An interaction between the 44/62 and 45 polymerase accessory proteins and the primase-helicase is required for primer synthesis on 32 protein-covered DNA. Thus it is possible that the signal for the initiation of a new fragment by the primase-helicase is the release of the polymerase accessory proteins from the completed adjacent fragment.
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PMID:Protein-protein interactions at a DNA replication fork: bacteriophage T4 as a model. 131 Sep 46

The incorporation of 6-thioguanine (S6G) in place of guanine proceeds readily in DNA synthesis reactions catalyzed by mammalian and bacterial polymerases. This report summarizes the consequences of such incorporation studied to date. S6G was incorporated into one strand of a defined M13mp18 phage sequence in a (+)reaction catalyzed by the Klenow fragment of Escherichia coli DNA polymerase I. After denaturation of the newly synthesized strand (containing S6G) and annealing with a reverse (-) 32P-labeled primer, polymerization catalyzed by the Klenow enzyme as well as by human DNA polymerases alpha, gamma, and delta was slowed considerably, compared with that across the corresponding guanine-containing template. To evaluate S6G-containing DNA as a substrate for DNA ligases, two oligodeoxynucleotides (19- and 20-mers) antisense to a 40-mer were synthesized so that the 40-mer coded for guanine at the 3' terminus of the 19-mer. After annealing of the synthetic oligonucleotides to form a duplex DNA containing a one-nucleotide gap (opposite cytosine in the 40-mer), the 19-mer was extended with 2'-deoxythioguanosine 5'-triphosphate using DNA polymerase, forming a nicked duplex DNA. The abilities of T4 DNA ligase and HeLa and calf thymus DNA ligase I to join the 5'-phosphate with the 3'-S6G-OH were severely inhibited, compared with the 3'-guanine-extended control. This finding suggests that incorporation of S6G at the 3' terminus of Okazaki fragments would inhibit lagging strand DNA synthesis. In other experiments, cleavage of S6G-containing DNA by some but not all restriction endonucleases progressed poorly, compared with the control guanine-containing DNA, independently of the location of S6G at recognition or cleavage sites, as previously observed by Iwaniec et al. [Mol. Pharmacol. 39:299-306 (1991)] with a different spectrum of enzymes. These findings indicate altered DNA-protein interactions due to S6G incorporation. The poor template function of S6G-containing DNA is consistent with the known delayed cytotoxicity and DNA damage previously reported to occur in S6G-treated cells.
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PMID:Consequences of 6-thioguanine incorporation into DNA on polymerase, ligase, and endonuclease reactions. 133 62

A simple method has been developed for the isolation of DNA from agarose gels. Centrifugation in a low-cost device for 45 s at low speed provides a high yield of DNA suitable for further manipulation by restriction enzymes, T4 DNA ligase, Taq polymerase, Klenow fragment, and T4 polynucleotide kinase, and also for sequencing. In contrast, centrifugation for greater than 1 min leads to coelution of substances that inhibit DNA ligase.
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PMID:Optimized centrifugation for rapid elution of DNA from agarose gels. 135 95

We surveyed the occurrence of unique restriction sites on the cDNAs of viroids, virusoids, and plant viral satellite RNAs that have a circular RNA as an intermediate of replication and found that four such sites would linearize their circular cDNAs. A rapid and simple method was then developed for cloning a naturally occurring viroid from Nematanthus wettsteinii plants. First-strand cDNA was synthesized using random hexanucleotide DNA primers and M-MuLV reverse transcriptase (Superscript RT). Second-strand DNA was synthesized by employing the replacement synthesis method using Escherichia coli RNase H, E. coli DNA polymerase I, E. coli DNA ligase, and beta-NAD+. The circular double-stranded DNA was analyzed for the presence of commonly available, unique restriction sites and subsequently linearized with a selected restriction enzyme. The linear cDNA was ligated to dephosphorylated plasmid vector pGEM 3Z f(+) and cloned in E. coli strain DH5 alpha. This cDNA cloning procedure is suitable for cloning sequence variants of well-characterized viroids, virusoids, certain plant viral satellite RNAs, and new such pathogens of unknown sequence.
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PMID:A rapid and versatile method for cloning viroids or other circular plant pathogenic RNAs. 138 86

The gene encoding DNA ligase I, the major DNA ligase activity in proliferating mammalian cells, maps to human chromosome 19q13.2-13.3. We have determined the complete structure of the gene, which is composed of 28 exons spanning 53kb on this chromosome. The first exon is untranslated, and utilises a GC dinucleotide instead of the canonical GT splice donor. The 5' flanking region lacks a TATA box and is highly GC-rich, as is characteristic of a 'housekeeping' gene. In common with the promoters of genes encoding other DNA replication enzymes, such as DNA polymerase alpha, the 5' flanking region of the DNA ligase I gene contains recognition elements for several transcription factors which may mediate increased expression in quiescent cells in response to growth factors.
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PMID:Structure of the human DNA ligase I gene. 150 69

The size of the repair patch produced by E. coli DNA polymerase (Pol I) following the removal of a pyrimidine dimer from DNA in response to the nicking activity of T4 endonuclease (T4 endo V) was determined. A 48-bp DNA containing a pyrimidine dimer at a defined location was labelled in the damaged strand and incubated with T4 endo V and E. coli endonuclease IV. Subsequently, DNA synthesis by DNA Pol I was carried out in the presence of four dNTPs, ATP and DNA ligase. Analysis of the reaction products on a sequencing gel revealed a ladder of only 4-oligonucleotides, 1-4 nucleotides greater in length than the fragment generated by the combined nicking activities of T4 endo V and E. coli endonuclease IV. Thus we conclude that the in vitro repair patch size of T4 endo V is 4 nucleotides and that in some cases the repaired DNA is not ligated.
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PMID:In vitro characterization of repair synthesis initiated by T4 endonuclease V on a synthetic DNA substrate. 151 8

Many cell division cycle (cdc) mutants of Saccharomyces cerevisiae exhibit elevated mitotic loss of pDK243, a 14-kilobase minichromosome with a centromere and one autonomous replicating sequence (ARS). Tandem copies of different ARSs were added to pDK243. The addition of these ARS clusters to pDK243 had no effect on its mitotic loss in cdc7 (protein kinase), cdc9 (DNA ligase), or cdc16 or cdc17 (DNA polymerase) mutants. However, in cdc6 and cdc14 mutants, the mitotic loss of pDK243 with an ARS cluster was suppressed by a factor of 6-8 compared to pDK243 without the cluster. This suppression was dependent upon the number of ARSs in the cluster and the integrity of the ARS consensus sequence in each ARS of the cluster. ARSs are known to be DNA replication origins. Therefore, the suppression of mini-chromosome loss by ARSs in cdc6 and cdc14 mutants suggests that these mutants are defective in the initiation of DNA replication. Since the CDC6 protein appears to act at the G1/S phase transition, the CDC6 protein may be a factor required at the beginning of S phase to initiate DNA replication at origins. In contrast, the CDC14 protein acts after mitosis. We suggest that the CDC14 protein performs a function late in the cell cycle that may be required for efficient initiation of DNA replication during S phase of the next cell cycle.
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PMID:Addition of extra origins of replication to a minichromosome suppresses its mitotic loss in cdc6 and cdc14 mutants of Saccharomyces cerevisiae. 155 17

We established a simple and rapid plasmid DNA purification method. Crude plasmid DNA preparations are treated with 4 M LiCl in the presence of 0.6 mg/ml ethidium bromide to precipitate RNA and proteins contained in the DNA preparations. After removal of RNA and protein precipitates, the supernatant is filtered through a Sepharose CL6B column to remove low-molecular-weight contaminants. This procedure takes only 30 min and provides pure plasmid DNA preparations that consist mainly of covalently closed circular plasmid DNA but have no detectable RNA and protein. The purified DNA preparations are susceptible to various six- and four-base-recognition restriction endonucleases, T4 DNA ligase, the Klenow fragment of DNA polymerase I, and T7 and Taq DNA polymerase. Since no special equipment is needed for this purification method, 20 or more samples of microgram to milligram levels can be treated in parallel.
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PMID:Rapid isolation of plasmid DNA by LiCl-ethidium bromide treatment and gel filtration. 166 16

The influence of poly(ADP-ribose) polymerase (PARP) on the replication of DNA containing the SV40 origin of replication has been examined. Extensive replication of SV40 DNA can be carried out in the presence of T antigen, topoisomerase I, the multimeric human single strand DNA-binding protein (HSSB), and DNA polymerase alpha-DNA primase (pol alpha-primase) complex (the monopolymerase system). In the monopolymerase system, both small products (Okazaki fragments), arising from lagging strand synthesis, and long products, arising from leading strand synthesis, are formed. The synthesis of long products requires the presence of relatively high levels of pol alpha-primase complex. In the presence of PARP, the synthesis of long products was blocked and only small Okazaki fragments accumulated, arising from the replication of the lagging strand template. The inhibition of leading strand synthesis by PARP can be effectively reversed by supplementing the monopolymerase system with the multimeric activator 1 protein (A1), the proliferating cell nuclear antigen (PCNA) and PCNA-dependent DNA polymerase delta (the dipolymerase system). The inhibition of leading strand synthesis in the monopolymerase system was caused by the binding of PARP to the ends of DNA chains, which blocked their further extension by pol alpha. The selective accumulation of Okazaki fragments was shown to be due to the coupled synthesis of primers by DNA primase and their immediate extension by pol alpha complexed to primase. PARP had little effect on this coupled reaction, but did inhibit the subsequent elongation of products, presumably after pol alpha dissociated from the 3'-end of the DNA fragments. PARP inhibited several other enzymatic reactions which required free ends of DNA chains. PARP inhibited exonuclease III, DNA ligase, the 5' to 3' exonuclease, and the elongation of primed DNA templates by pol alpha. In contrast, PARP only partly competed with the elongation of primed DNA templates by the pol delta elongation system which required SSB, A1, and PCNA. These results suggest that the binding of PARP at the ends of nascent DNA chains can be displaced by the binding of A1 and PCNA to primer ends. HSSB can be poly(ADP-ribosylated) in vivo as well as in vitro. However, the selective effect of PARP in blocking leading strand synthesis in the monopolymerase system was shown to depend primarily on its DNA binding property rather than on its ability to synthesize poly(ADP-ribose).
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PMID:Influence of poly(ADP-ribose) polymerase on the enzymatic synthesis of SV40 DNA. 167 70

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