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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 sequence of 18 nucleotides in the region preceding the initiation of transcription of the gene N of bacteriophage lambda has been determined to be as follows (see article). The basic approach used for the sequence determination involved Escherichia coli DNA polymerase I-catalyzed elongation of the octadecanucleotide primer, dT-C-A-G-T-G-C-G-T-C-C-T-G-C-T-G-A-rU, possessing the appropriate polarity and nucleotide sequence corresponding to the 5' end of the gene N transcript. Following hybridization of the primer to the r-stand of bacteriophage lambda CI85657, sequences of the newly grown ollgonucleotide chains were determined by a) partial exonuclease digestion followed by two-dimensional fingerprinting; b) determination of pyrimidine tracts; and c) nearest neighbor analyses. Primer elongation was carried out in a controlled manner, the size of the newly grown chains being kept short by the following techniques: a) insertion of a ribonucleotide unit as the 3' terminus of the primer; b) use of a limited number of deoxynucleoside 5'-triphosphates in the elongation reaction; and c) enlongation of the primer using all the four nucleoside triphosphates with one of the triphosphates being supplied in a limiting concentration.
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PMID:The nucleotide sequence in the promoter region of the gene N in bacteriophage lambda. 16 18

The T7gene-4 protein has been purified to near homogeneity using a complementation assay in vitro, and it is designated T7 DNA-priming protein (DNA primase). The purified enzyme enables T7 DNA polymerase to initate DNA synthesis on various circular single-stranded DNA templates by a mechanism which involes the synthesis of a very short RNA primer. The oligoribonucleotide, which is linked to the product DNA via a 3':5'-phosphodiester bond, starts with pppA-C and terminates predominantly with AMP. When only ATP and CPT are precursors, the RNA primer is found to be primarily a tetranucleotide of the sequence pppA-C-C-A. Using oligoribonucleotides in place of ribonucleoside triphosphates as chain initators, T7 DNA-priming protein drastically increases the efficiency with which T7 DNA polymerase can utilize particular tetranucleotide primers containing A and C residues. T7 DNA-priming protein also enables T7 DNA polymerase to make use of native or nicked duplex T7 DNA as template-primer. This reaction does not require ribonucleoside triphosphates, although their addition enhances DNA synthesis 2--4 fold. The product formed in their absence is covalently attached to the template DNA and is found to contain a few long branches when examined by electron microscopy. In the presence of ribonucleoside triphosphates most of the newly made product arises from imitation of DNA chains de novo. Incubation of three proteins: T7 DNA-priming protein, T7 DNA polymerase, and T7 DNA-binding protein, with ribonucleoside and deoxyribonucleoside triphosphates, and with phiX174DNA as template leads to the generation of 'rolling circle-like' structures as visualized in the electron microscope. Single-stranded regions at the tail-circle junction indicate that initations can occur de novo on the displaced complementary strand. This is consistent with a discontinuous mode of 'lagging' strand synthesis and suggests that the same proteins may also be responsible for fork propagation in vivo.
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PMID:Bacteriophage-T7-induced DNA-priming protein. A novel enzyme involved in DNA replication. 32 3

Bacteriophage T7 DNA primase (gene-4 protein, 66,000 daltons) enables T7 DNA polymerase to initiate the synthesis of DNA chains on single-stranded templates. An initial step in the process of chain initiation is the formation of an oligoribonucleotide primer by T7 primase. The enzyme, in the presence of natural SS DNA, Mg++ (or Mn++), ATP and CTP (or a mixture of all 4 rNTPs), catalyzes the synthesis of di-, tri-, and tetraribonucleotides all starting at the 5' terminus with pppA. In a subsequent step requiring both T7 DNA polymerase and primase, the short oligoribonucleotides (predominantly pppA-C-C-AOH) are extended by covalent addition of deoxyribonucleotides. With the aid of primase, T7 DNA polymerase can also utilize efficiently a variety of synthetic tri-, tetra-, or pentanucleotides as chain initiators. T7 primase apparently plays an active role in primer extension by stabilizing the short primer segments in a duplex state on the template DNA.
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PMID:Role of bacteriophage T7 DNA primase in the initiation of DNA strand synthesis. 60 Jul 93

A pyrimidine octanucleotide complementary to one of the cohesive ends of P2 DNA was chemically synthesized. Its sequence, d(C-T-T-T-C-C-C-C-OH), was verified by labeling it at the 5' end, followed by partial enzyme digestion and separation by a two-dimensional fingerprinting system. A single ribo-G residue was added to its 3' end using calf thymus deoxynucleotidyl terminal transferase. The resulting nonanucleotide primer was used in a detailed study on the stability of the duplexes formed in the partial as well as complete repair synthesis catalyzed by DNA polymerase I, at 5 degrees C in the presence of 70 mM potassium phosphate and 70 mM NaCl. The nonanucleotide primer was able to form a stable duplex with P2 DNA template only in the presence of DNA polymerase I. When the chain lengths of pyrimidine oligonucleotides were varied from 4 to 8 to test their abilities to serve as primers for the enzymatic repair synthesis, it was revealed that the minimum length required for the primer function is 8. Using the nonanucleotide as the primer and the right-hand cohesive end of the DNA as the template, repair synthesis was initiated simultaneously at the 3' end of the primer as well as at the right-hand 3' end of the DNA. This resulted in a decrease in the efficiency of repair synthesis at the 3' end of the primer, possibly due to the displacement of the primer by the enzyme. The enzyme was unable to displace the primer, when the primer was extended to a 13-mer prior to the initiation of repair synthesis at the 3'-OH end of the DNA. These data suggest that the strand displacement by DNA polymerase I at 5 degrees C in the presence of 70 mM potassium phosphate and 70 mM NaCl is not significant when the duplex is at least 13 nucleotides long. The efficiency of the repair synthesis at the 3'-OH end of the DNA-primer duplex could be increased by blocking the repair synthesis at the 3'-OH end of the DNA by converting it to 3'- phosphate. This method could be useful in DNA sequence analysis, where such specific repair synthesis is desired.
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PMID:Chemical synthesis of an octanucleotide complementary to a portion of the cohesive end of P2 DNA and studies on the stability of duplex formation with P2 DNA. 85 84

Naturally occurring sesquiterpene lactones and their semisynthetic derivatives, such as the O = C-C = CH-bearing helenalin and its esters, have been shown to demonstrate potent cytotoxicity against the growth of murine L1210 lymphoid leukemia and human Tmolt3 leukemia, colon adenocarcinoma, HeLaS3, lung bronchogenic, KB, osteosarcoma, and glioma cells. The modes of action of helenalin in L1210 cells are the inhibition of DNA, RNA, and protein syntheses. This study confirms that thiol bearing enzymes of nucleic acid metabolism were significantly inhibited, e.g. DNA polymerase alpha, IMP hydrogenase, and ribonucleoside reductase. The addition of GSH to the reaction medium demonstrated total recovery of L1210 ribonucleoside reductase activity. Helenalin reduced cellular GSH levels in L1210 cells. Helenalin also reduced all four pool levels of d(NTP)s which would account for part of the observed inhibition of DNA synthesis. Reductions in the ribonucleotide pool levels were also generally evident after drug treatment. Thus, the sesquiterpene lactones appear to have more than one mode of action in L1210 cells. All of the modes of actions of helenalin are feasible mechanisms to lower nucleic acid synthesis and cause cell death of the L1210 leukemia cells.
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PMID:The cytotoxicity of helenalin, its mono and difunctional esters, and related sesquiterpene lactones in murine and human tumor cells. 152 2

The mutD (dnaQ) gene of Escherichia coli codes for the epsilon subunit of the DNA polymerase III holoenzyme which is involved in 3'----5' exonuclease proofreading activity. We determined the mutational specificity of the mutator allele, mutD5, in the lacI gene of E. coli. The mutD5 mutation preferentially produces single base substitutions as judged from the enhanced fraction of lacI nonsense mutations and the spectrum of sequenced dominant lacI (lacId) and constitutive lacO (lacOc) mutations which were predominantly (69/71) single nucleotide substitutions. The distribution of amber lacI and sequenced lacId mutations revealed that transitions occur more frequently than transversions. A . T----G . C and G . C----A . T transitions were equally frequent and, with one major exception, evenly distributed among numerous sites. Among the transversions, A . T----T . A events were the most common, A . T----C . G substitutions were rare, and G . C----C . G changes were not detected. Transversions were unequally distributed among a limited number of sites with obvious hotspots. All 11 sequenced transversions had a consensus neighboring sequence of 5'-C-C-(mutated G or A)-C-3'. Although no large deletions or complex mutational events were recovered, sequencing revealed that mutD5 induced single nucleotide deletions within consecutive G X C sequences. An extraordinary A . T----G . C transition hotspot occurred at nucleotide position +6 in the lac operator region; the mutD5 mutation frequency of this single base pair was calculated to be 1.2 X 10(-3).
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PMID:Characterization of mutational specificity within the lacI gene for a mutD5 mutator strain of Escherichia coli defective in 3'----5' exonuclease (proofreading) activity. 352 41

The chemically synthesized dodecamer d(pA-G-G-T-C-G-C-C-G-C-C-C) was annealed, and was covalently joined to lambda phage DNA with bacterio-phage T(4) ligase. The 5'-end of the dodecamer was joined to a deoxyguanosine residue. Repair with DNA polymerase I established that the position of joining was the left-hand end of lambda DNA. This is the first time that a chemically synthesized oligonucleotide has been covalently joined to a naturally occurring DNA molecule.
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PMID:Lambda phage DNA: joining of a chemically synthesized cohesive end. 456 55

We have isolated a cDNA clone for one of the HLA-B locus alloantigens by hybridization with a 30-nucleotide-long DNA probe. The probe was isolated from a reverse transcriptase (RNA-dependent DNA nucleotidyltransferase)-catalyzed cDNA synthesis reaction on poly(A)-mRNA in which an oligonucleotide (5'-32P)dC-T-T-C-T-C-C-A-C-A-TOH served as a primer and in which dideoxynucleoside triphosphates were used to reduce the size and heterogeneity of the cDNA products. The desired cDNA clone was isolated from a library of recombinant cDNA clones in the plasmid pBR322. The partial nucleotide sequence of the cDNA clone corresponds to the amino acid sequence of HLA-B7 antigen. The approach described in this paper is extremely sensitive and may be useful in cloning other genes for which the corresponding mRNA is present at low levels. This cDNA clone is nearly full length and can be used to isolate and to study the genes within the HLA region and to obtain expression of HLA-B peptides in cells.
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PMID:Isolation and partial nucleotide sequence of a cDNA clone for human histocompatibility antigen HLA-B by use of an oligodeoxynucleotide primer. 616 99

The antiviral activity of five structurally related pyrimidine nucleosides, E-5-propenyl-2'-deoxyuridine, 5-allyl-2'-deoxyuridine, E-5-(1-butenyl)-2'-deoxyuridine, 5-(2-butenyl)-2'-deoxyuridine, and 5-butyl-2'-deoxyuridine, in cell culture against herpes simplex virus type 1 was examined. Analogs in which the C-C double bond of the 5-substituent was in conjugation with the pyrimidine ring were more potent antiviral drugs than were the corresponding nonconjugated and alkyl-substituted analogs. Differences in antiviral activity similar to those observed in cell culture occurred in virus-infected mice. The molecular basis for the greater antiviral activity of the conjugated isomers was investigated. It was observed that the conjugated isomer E-5-propenyl-2'-deoxyuridine had a greater affinity for virus thymidine kinase and, as the 5'-triphosphate, for virus DNA polymerase than did the nonconjugated isomer 5-allyl-2'-deoxyuridine. The results are discussed in relation to other data in the literature.
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PMID:Possible molecular basis for antiviral activity of certain 5-substituted deoxyuridines. 630 12

The gene 4 protein of bacteriophage T7 recognizes specific sequences on single-stranded DNA and then catalyzes the synthesis of tetraribonucleotide primers complementary to the template. With phi X174 DNA as a template, the gene 4 protein enables T7 DNA polymerase (deoxynucleosidetriphosphate:DNA deoxynucleotidyltransferase, EC 2.7.7.7) to initiate DNA synthesis at 13 major sites. DNA sequence analysis of the 5' termini of the newly synthesized DNA shows the predominant recognition sequences for the gene 4 protein to be 3'-C-T-G-G-G-5' or 3'-C-T-G-G-T-5'; the products of synthesis at these sites are RNA primers having the sequences pppA-C-C-C or pppA-C-C-A. The gene 4 protein can also synthesize primers at the sequences 3'-C-T-G-G-AC-5' and 3'-C-T-G-T-N-5', although these sites are used less than 10% as frequently as the predominant sites. Comparison of the utilization of primer sites suggests that the gene 4 protein binds randomly to single-stranded DNA and then translocates along the DNA in a unidirectional 5'-to-3' direction with regard to the DNA strand in search of recognition sequences. Models are presented for the role of the gene 4 protein in the initiation of lagging-strand synthesis and in the initiation of DNA replication at the origin.
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PMID:Template recognition sequence for RNA primer synthesis by gene 4 protein of bacteriophage T7. 645 35

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