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)

Using dodecadeoxynucleotides as primers for DNA synthesis and 3'-o-chlorophenyl-phosphorylated dodecadeoxynucleotides as "stoppers" for chain elongation, pre-defined regions of a gene previously cloned in M13 single-stranded (ss) DNA phage were converted into double-stranded (ds) DNA utilizing the action of the Klenow fragment of Escherichia coli DNA polymerase I (PolIk). The resulting ds DNA was freed from the ss region by S1 nuclease treatment. This method can be used to obtain DNA fragments of any size with pre-defined 5' and 3' ends. About 15% of the input ss DNA template molecules are converted into ds DNA fragments. This technique was used to synthesize several DNA fragments from different portions of the hepatitis B virus surface antigen (HBsAg) gene. The products were then ligated into a yeast plasmid vector that carries the E. coli lacZ gene which is located downstream from the yeast acid-phosphatase promotor. Using this system, several fragments of HBsAg were produced in the form of beta-galactosidase fused protein.
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PMID:Cloning a defined region of DNA using a limited action of DNA polymerase: application to dissection of hepatitis B virus surface antigen gene. 378 Dec 47

Double-stranded cDNA was prepared from prorennin-specific mRNA by sequential actions of reverse transcriptase, DNA polymerase and S1 nuclease, and inserted into the Sa/I site of pBR322 by the poly(dG)-(dC) annealing method. Transformation of Escherichia coli C600 r- m- by the hybrid plasmid yielded transformants containing prorennin cDNA. The presence of the cDNA sequence in these clones was confirmed by both colony hybridization and hybrid-arrested translation of the mRNA in vitro. The largest size of the cloned cDNA was 1,020 bp.
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PMID:Cloning in Escherichia coli of the structural gene of prorennin, the precursor of calf milk-clotting enzyme renin. 617 64

Double-stranded DNA synthesized from the pigeon globin mRNA by the subsequent actions of avian myeloblastosis virus reverse transcriptase and E. coli DNA polymerase I was split with nuclease S1 and inserted into PstI site in the plasmid pBR322 by poly(dG) times poly(dC) homopolymer extension technique using terminal deoxynucleotidyl transferase. E. coli transformants have been shown to contain pigeon globin sequences by colony hybridization with pigeon globin [32P]cDNA. The inserted DNA fragment deleted from recombinant DNA by PstI treatment hybridizes with globin cDNA. The maximal length of the inserted fragment measured in agarose gel was found to be 550--560 base pairs. Inserted sequences subjected to analysis by hybridization with alpha- and beta-[32P]cDNA have been ascribed to the pigeon alpha globin chain. EcoRI, HindIII, BglII, SalI, BamHI, PstI restriction enzymes did not cleave the inserted DNA fragment. Pigeon DNA coding alpha-globin chain contains recognition sites for AluI, HindII and HaeIII restriction enzymes. Part of the recombinant clones remains resistant to ampicillin and therefore in some of these clones the globin gene could be expressed.
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PMID:[Enzymatic synthesis and molecular cloning of the pigeon alpha-globin structural gene]. 617 3

A simple method for generating cDNA libraries from submicrogram quantities of mRNA is described. It combines classical first-strand synthesis with the novel RNase H-DNA polymerase I-mediated second-strand synthesis [Okayama, H., and Berg, P., Mol. Cell. Biol. 2 (1982) 161-170]. Neither the elaborate vector-primer system nor the classical hairpin loop cleavage by S1 nuclease are used. cDNA thus made can be tailed and cloned without further purification or sizing. Cloning efficiencies can be as high as 10(6) recombinants generated per microgram mRNA, a considerable improvement over earlier methods. Using the fully sequenced 1300 nucleotide-long bovine preproenkephalin mRNA, we have established by sequencing that the method yields faithful full-length transcripts. This procedure considerably simplifies the establishment of cDNA libraries and thus the cloning of low-abundance mRNAs.
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PMID:A simple and very efficient method for generating cDNA libraries. 619 42

A method is described for the rapid generation and cloning of deletion derivatives well-suited for the sequencing of long stretches of DNA. This method is based on two useful features of exonuclease III: (1) processive digestion at a very uniform rate and (2) failure to initiate digestion at DNA ends with four-base 3'-protrusions. The method was applied to a 4570-bp Drosophila genomic DNA fragment cloned in the single-stranded phage vector M 13mp18. An ordered set of deletion clones was made by first cutting replicative form(RF) DNA with two restriction enzymes in the polylinker region of the vector between the Drosophila DNA and the sequencing primer binding site. One enzyme left a four-base 3'-protrusion that protected the remainder of the vector from exonuclease III attack, allowing unidirectional digestion of the insert sequence from the 5'-protruding end left by the other enzyme. Aliquots were removed at uniform intervals, treated with S1 nuclease, Klenow DNA polymerase, T4 DNA ligase, and then used to transfect competent cells. Most of the resulting clones derived from each aliquot were deleted to a predicted extent with only slight scatter, even for deletions of more than 4 kb. The method permits efficient isolation of clusters of deletion breakpoints within small preselected regions of large DNA segments, allowing nonrandom sequence analysis.
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PMID:Unidirectional digestion with exonuclease III creates targeted breakpoints for DNA sequencing. 623 51

Poly(A)-RNA enriched for prothrombin was isolated by specific immunoprecipitation of bovine liver polysomes. Prothrombin consisted of about 8% of the cell-free translation products of this RNA. A double-stranded cDNA was synthesized by using reverse transcriptase (RNA-dependent DNA nucleotidyltransferase) and made blunt-ended with nuclease S1. After tailing with dCTP and terminal transferase, the double-stranded cDNA was annealed to pBR322 DNA that had been cleaved previously at the single Pst I site and similarly tailed with dGTP. The resulting plasmids were used to transform Escherichia coli strain RR1 under P3-EK1 conditions. Sixty-three tetracycline-resistant clones were obtained that hybridized to 32P-labeled cDNA synthesized from prothrombin-enriched mRNA. Recombinants containing cDNA to prothrombin mRNA sequences were screened by a solution hybridization assay with a [3H]cDNA synthesized from mRNA. This enriched mRNA was 50% prothrombin mRNA, as determined by a reticulocyte lysate translation assay. Three positive clones were identified by this assay; they contained bovine DNA inserts of 700, 500, and 400 base pairs. The DNA sequence of the 700-base-pair insert was then determined. This recombinant plasmid contained DNA coding for the carboxyl-terminal 160 residues of bovine prothrombin followed by a noncoding region of 119 base pairs and a poly(A) tail of 60 base pairs.
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PMID:Cloning and analysis of a cDNA coding for bovine prothrombin. 625 59

DNA complementary (cDNA) to a partially purified preparation of bovine parathyroid hormone mRNA was synthesized using avian myeloblastosis viral reverse transcriptase. The PTH cDNA contained about 750 bases and was greater than 95% sensitive to digestion by S1 nuclease. Analysis of the mRNA preparation by excess RNA hybridization to the PTH cDNA revealed one rapidly hybridizing component consisting of 50% of the PTH cDNA. Sequential incubation of the PTH mRNA with reverse transcriptase and E. coli DNA polymerase I produced near full length double-stranded PTH cDNA. Of the 22 restriction endonucleases tested, double-stranded PTH cDNA could be cleaved with Alu I, Mbo II, Sau 3A, Sst I, and Taq I. The restriction fragments corresponding to the 5' terminus of the sense strand were identified for the last three enzymes by comparing the size of fragments obtained from PTH cDNA before and after cleavage of the hairpin loop connecting the two strands by S1 nuclease. The restriction map of the cDNA was used to detect clones of bacteria containing recombinant plasmids with near full length PTH cDNA inserts.
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PMID:Synthesis, restriction analysis, and molecular cloning of near full length DNA complementary to bovine parathyroid hormone mRNA. 625 49

The action of T4 polynucleotide kinase, T4 DNA polymerase, E. coli DNA polymerase I, snake venom phosphodiesterase (VPDE) and S1 nuclease on analogues of oligothymidilates with p-s-C5' bonds and the ability of these analogues to prime the replication of poly (dA) by T4 DNA polymerase were studied. These analogues were shown to be substrates for all these enzymes. Substitution of these analogues for corresponding oligothymidilates in the reaction mixtures resulted in drop in rates of enzymic reactions. This drop in reactions rates was not significant when these oligonucleotides were phosphorylated with T4 polynucleotide kinase or used as a primers, however in comparison with oligothymidilates these analogues were found to be considerably more resistant to nucleolytic hydrolysis. Some possible applications of these analogues are discussed.
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PMID:Some substrate properties of analogues of oligothymidylates with p-s-C5' bonds. 625 19

About 13% of the deoxyribonucleic acid (DNA) of various strains of Bacillus subtilis, independent of the stage of growth or competence for transformation, was rendered acid soluble by endonuclease S1. In a pH 11.2 CsCl gradient, 4% of the untreated DNA banded at the density typical for single-stranded molecules, whereas 9% of the remaining DNA (main band) was sensitive to endonuclease S1. Selective inhibition of DNA polymerase III, or of DNA-dependent ribonucleic acid polymerase, did not increase or abolish single-strandedness. The DNA purification procedure did affect the level of single-stranded DNA, indicating its binding to cell constituents containing ribonucleic acid, protein, and membranous material. The molecular weight of the single-stranded fraction resembled that of total denatured DNA, and its buoyant density in an alkaline CsCl gradient was centered partially at a density of 1.772 g/cm3 and partially at a density of 7.759 g/cm3. Incubation of DNA under conditions leading to renaturation of its single-stranded fraction led to an increase in transforming activity for the purA16+ marker (close to the origin of replication) relative to leu-8+ and metC3+ markers (located in the middle of the chromosome), indicating this region is the main source of the single-stranded fraction.
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PMID:Single-stranded fraction of deoxyribonucleic acid from Bacillus subtilis. 626 65

Reaction intermediates formed during the degradation of linear PM2, T5, and lambda DNA by herpes simplex virus (HSV) DNase have been examined by agarose gel electrophoresis. Digestion of T5 DNA by HSV type 2 (HSV-2) DNase in the presence of Mn(2+) (endonuclease only) gave rise to 6 major and 12 minor fragments. Some of the fragments produced correspond to those observed after cleavage of T5 DNA by the single-strand-specific S1 nuclease, indicating that the HSV DNase rapidly cleaves opposite a nick or gap in a duplex DNA molecule. In contrast, HSV DNase did not produce distinct fragments upon digestion of linear PM2 or lambda DNA, which do not contain nicks. In the presence of Mg(2+), when both endonuclease and exonuclease activities of the HSV DNase occur, most of the same distinct fragments from digestion of T5 DNA were observed. However, these fragments were then further degraded preferentially from the ends, presumably by the action of the exonuclease activity. Unit-length lambda DNA, EcoRI restriction fragments of lambda DNA, and linear PM2 DNA were also degraded from the ends by HSV DNase in the same manner. Previous studies have suggested that the HSV exonuclease degrades in the 3' --> 5' direction. If this is correct, and since only 5'-monophosphate nucleosides are produced, then HSV DNase should "activate" DNA for DNA polymerase. However, unlike pancreatic DNase I, neither HSV-1 nor HSV-2 DNase, in the presence of Mg(2+) or Mn(2+), activated calf thymus DNA for HSV DNA polymerase. This suggests that HSV DNase degrades both strands of a linear double-stranded DNA molecule from the same end at about the same rate. That is, HSV DNase is apparently capable of degrading DNA strands in the 3' --> 5' direction as well as in the 5' --> 3' direction, yielding progressively smaller double-stranded molecules with flush ends. Except with minor differences, HSV-1 and HSV-2 DNases act in a similar manner.
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PMID:Mechanism of degradation of duplex DNA by the DNase induced by herpes simplex virus. 626 48

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