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 31mer 5'-TCA ACG CTA GAA TTC GGA TCC ATC GCT TGG T, the complementary 33mer 5'-CCA AGC GAT GGA TCC GAA TTC TAG CGT TGA GAT, the 40mer 5'-GGC CAG GAT GGT GAA GAA TTC GAT CCG GTA CGT AGC TAA G, and the complementary 42mer 5'-TAC TTA GCT ACG TAC CGG ATC GAA TTC TTC ACC ATC CTG GCC were synthesized and their reactivity towards EcoRI was studied. It was found that the 31mer and the 40mer were cleaved at a comparable rate to the 31mer-33mer hybrid and the 40mer-42mer hybrid, respectively. The rate of cleavage of the 33mer and the 42mer was an order of magnitude lower. To rule out possible intermolecular duplex formation, the 33mer was immobilized on cellulose by ligation and labeled with alpha 32P-dCTP using Klenow fragment of E. coli DNA polymerase. EcoRI cleaved this immobilized oligomer into specific fragments.
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PMID:Cleavage of single stranded oligonucleotides by EcoRI restriction endonuclease. 302 89

We report the nucleotide sequence of 3.2 kilobase pair region of the Escherichia coli polA gene, comprising the coding region for DNA polymerase I with about 400 base pairs of flanking sequence. The amino acid sequence for DNA polymerase I derived from our DNA sequence is largely consistent with previous protein chemical data. In the following paper, Brown et al. (Brown, W. E., Stump, K. H., and Kelley, W. S. (1982) J. Biol. Chem. 257, 1965-1972) present additional protein chemistry experiments that further confirm our sequence. Mild proteolysis of DNA polymerase I is known to produce two enzymatically active fragments (Brutlag, D., Atkinson, M. R., Setlow, P., and Kornberg, A. (1969) Biochem. Biophys. Res. Commun. 37, 982-989; Klenow, H., and Henningsen, I. (1970) Proc. Natl. Acad. Sci. U. S. A. 74, 5632-5636). We have located the site of this cleavage between residues 323 and 324 of the 928 amino acid polymerase molecule. By sequence comparison of the polA1 and wild type alleles, we have identified the polA1 mutation as a change from Trp (TGG) to amber (TAG) at residue 342.
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PMID:Nucleotide sequence of the Escherichia coli polA gene and primary structure of DNA polymerase I. 627 2

The polA1 mutation of Escherichia coli K12 and two further mutations, resA1 and resA2, characterized in E. coli B have been shown to produce enzymatically active nonsense (amber) peptides. These enzymes can be purified to virtual homogeneity by use of the lambda polA transducing phage system. The peptides are immunologically related and react weakly but specifically with antibody to whole DNA polymerase I. In their purified form the peptides are less heat-labile than the whole enzyme or the Klenow fragment produced by proteolysis. Physiological studies indicate that all three alleles are compatible with a number of different streptomycin resistance mutations (rpsL alleles) in a variety of genetic backgrounds. There is, however, clear evidence for slight amounts of "read-through" of these mutations under these conditions. DNA sequence studies have indicated the exact nucleotides that have been mutated to produce the amber alleles. The resA1 and resA2 alleles appear to be independent isolates of the same mutation both resulting in CAG (Gln) leads to TAG (amber) at amino acid residue 298. The polA1 mutation results in TGC (Trp) leads to TAG (amber) at amino acid residue 342. The significance of these findings is discussed with reference to the structure of the whole enzyme as shown by the DNA sequence data of Joyce et al. (1982) and protein chemistry of Brown et al. (1982).
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PMID:Genetic characterization of early amber mutations in the Escherichia coli polA gene and purification of the amber peptides. 630 78

DNA from the am16 mutant of bacteriophage phi X174 may be replicated in vitro and expressed in vivo to give five classes of revertants. Each class may be specifically induced by the appropriate biasing of the concentrations of deoxynucleoside triphosphates in a predictable manner. The frequency of each reversion follows a kinetic rate equation relating it to the concentrations of the triphosphates involved in the substitution. The reversions corresponding to TAG leads to GAG, AAG, CAG, TGG, and TCG are calculated to occur with frequencies of 5 X 10(-7), 4 X 10(-7), 4 X 10(-7), approximately 2 X 10(-7), and approximately 5 X 10(-9), respectively, at the concentration of triphosphates found in vivo. The frequencies are in the range found for the reversion of the phage in vivo and so are consistent with errors in nucleotide selection by DNA polymerase (deoxynucleosidetriphosphate:DNA deoxynucleotidyltransferase, EC 2.7.7.7) III being largely responsible for the rate of spontaneous mutation in vivo. The relative frequency of mispairing leading to misincorporation is: purine.purine approximately purine.pyrimidine much greater than pyrimidine.pyrimidine, confirming predictions from model-building studies that transversions arise through purine.purine mismatches.
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PMID:DNA polymerase accuracy and spontaneous mutation rates: frequencies of purine.purine, purine.pyrimidine, and pyrimidine.pyrimidine mismatches during DNA replication. 645 1

A previously described large Vermont kindred possessing a high incidence of venous thromboembolism with associated Type I protein C deficiency (1) has been genetically analyzed. All nine exons of the protein C gene, including both coding and non-coding regions, have been amplified from blood cell genomic DNA using the Tag DNA polymerase chain reaction (PCR) and primers corresponding to flanking intronic regions, and the products directly sequenced. An initial mutation (C-->T) resulting in Thr298-->Met was observed in one arm of the family exhibiting a history of thrombosis and protein C deficiency and was designated protein CVERMONT IIa. However, examination of the kindred member parent (male) of this arm and members of other arms of the kindred demonstrated that the mutation entered the arm via the genetically unrelated spouse. Further analysis of the father and members of other arms of the kindred revealed a different mutation (C insertion: CAT-->CCAT), resulting in a frameshift beginning at amino acid #107 (His-->Pro) and truncation of the protein at codon #119 of the mature protein. This mutation, called protein CVERMONT IIb, is associated with protein C deficiency and thrombosis throughout the kindred.
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PMID:Genetic analysis of a large kindred exhibiting type I protein C deficiency and associated thrombosis. 791 73

1. DNA polymerase alpha (pol alpha) isolated from Simian virus 40 (SV40)-transformed cells showed more than 3-fold higher specific activity than pol alpha from normal cells. The enzymes from untransformed and transformed cells also differed in molecular size, thermolability, sensitivity to inhibitors and specificity of template-primer utilization. 2. Western analysis using anti-Tag to probe both a crude cell homogenate and partially purified pol alpha from SV40 transformed cells showed multiple immunoreactive bands with different molecular sizes. 3. While alpha polymerases from both normal and transformed cells exhibited tightly associated primase activity, they showed different DNA binding affinities. 4. These data suggest that T antigen binding to pol alpha alters the initiation of DNA replication and/or the function of pol alpha in SV40-transformed cells, and that pol alpha from SV40-transformed human fibroblasts have different catalytic subunit characteristics than pol alpha from untransformed cells.
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PMID:A comparison of DNA polymerase alpha from untransformed and SV40-transformed human fibroblasts. 839 51

We had previously shown that chronically infected ACH-2 cells (HIVLAI) could be superinfected with HIVRF, that the frequency of superinfection increased with time, and that the transcription of the superinfecting virus exceeded that of the host HIVLAI provirus. In contrast, ACH-2 cells superinfected with a nef-substituted neomycin-resistant (proNEO) provirus were not detectable by DNA polymerase chain reaction (PCR) until geneticin (G418) was added, suggesting that the ability to propagate progressively in culture may be HIV strain specific. Clonal populations of ACH-2 superinfected with proNEO did not demonstrate preferential transcription of the superinfecting virus. However, clones of ACH-2 superinfected with HIVRF (ACH2/RF) showed a preponderance of HIVRF transcripts similar to that seen in bulk populations. Induction of the superinfecting virus by phorbol ester (PMA) occurred more rapidly than the hose provirus and did not equalize transcriptional activity. PCR-derived long terminal repeat (LTR) fragments and Tat cDNAs from A3.01 cells acutely infected with HIVRF or from ACH-2 cells were sequenced and tested for transactivation. The HIVLAI LTR was two to three times more Tat-responsive than the HIVRF LTR. TatRF was two to three times more transcriptionally active on either LTR than TatLAI. Demethylation with 5-azacytidine did not significantly affect HIV expression from the HIVLAI host provirus of superinfected ACH2/RF cell clones. These data suggest that the mechanism of preferential transcription in HIVRF superinfected ACH2/RF may be attributed to the Tat/TAR axis and the effect of the specific locus of host proviral integration.
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PMID:Transcriptional effects of superinfection in HIV chronically infected T cells: studies in dually infected clones. 867 41

We described a method for PCR amplification of unknown flanking genomic DNA fragments. This method is a combination of PCR with "end-trimming method" and "cassettes and cassette-primers method". In this method, genomic DNA was digested with three different groups of restriction enzymes. DNA in group 1 was digested with BamHI, BglII, FbaI, or MboI. DNA in group 2 was digested with BlnI, NheI, SpeI, or XbaI. DNA in group 3 was digested with SalI or XhoI. Digested DNA in each group was end-trimmed with Klenow fragment of DNA polymerase I in the presence of only one dNTP; dGTP, dCTP, and dTTP for group 1, 2, and 3, respectively. The synthesized cassettes, C1, C2, and C3, had 5'protruding sequences of 5'-ATC-3',5'-TAG-3', and 5'-CGA-3', respectively. Each compatible cassette was ligated to the end-trimmed DNAs in group 1-3, respectively. Nested PCR was then performed using an end-trimmed and cassette-ligated DNA as a template. Primers annealing to known sequences and cassettes were used for the nested PCR. The amplified DNA fragments were electrophoresed on a polyacrylamide gel and purified. The sequences of the DNA fragments were determined after cloning into pBluescript.
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PMID:PCR with end trimming and cassette ligation: a rapid method to clone exon-intron boundaries and a 5'-upstream sequence of genomic DNA based on a cDNA sequence. 901 12

Triplet repeat sequence instability is associated with hereditary neurological diseases and with certain types of cancer. Here we study one form of this instability, deletion of triplet repeats during replication of template (CAG)(n)sequences by DNA polymerases. To monitor loss of triplet codons, we inserted (CAG)(9)and (CAG)(17)repeats into the lacZ sequence in M13mp2 and changed one repeat to a TAG codon to yield DNA substrates with colorless plaque phenotypes. Templates containing these inserts within gaps were copied and errors were scored as blue plaque Lac revertants whose DNA was sequenced to determine if loss of the TAG codon resulted from substitutions or deletions. DNA synthesis by either DNA polymerase beta or exonuclease-deficient T7 DNA polymerase produced deletions involving loss of from 1 to 8 of 9 or 15 of 17 repeats. Thus, these polymerases utilize misaligned template-primers containing from 3 to 45 extra template strand nucleotides. Deletion frequencies were much higher than substitution frequencies at the TAG codon in certain repeats, indicating that triplet repeats are at high risk for mutation in the absence of error correction. Proofreading-proficient T7 DNA polymerase generated deletions at 2- to 10-fold lower frequencies than did its exonuclease-deficient derivative. This suggests that misaligned triplet repeat sequences are subject to proofreading, but at reduced efficiency compared to editing of single-base mismatches.
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PMID:Deletion errors generated during replication of CAG repeats. 1044 36

To understand the effects of the immunosuppressant cyclosporin A (CsA) on Ca2+-mediated intracellular signalling pathways in human peripheral blood mononuclear cells (PBMCs), we investigated its effects on the activity profiles of mitogen-activated protein kinase (MAPK) cascades. PBMCs, or subpopulations thereof, were simultaneously stimulated with a phorbol ester and the calcium ionophore ionomycin, in the presence or absence of therapeutic concentrations of CsA. In these primary human cells, CsA significantly inhibited PMA/ionomycin-mediated and ionomycin-mediated activation of the MAPK kinase MKK6, as well as its downstream kinases SAPK2a (p38alpha) and MAPKAP-K2. PMA/ionomycin treatment also mediated activation of SAPK1 (JNKs) which was inhibited by CsA. Treatment with ionomycin alone also resulted in CsA-sensitive activation of SAPK1. With regard to transcription factors targeted by the Ca2+-induced MAPK signalling network, we found CsA to inhibit the ionomycin-mediated phosphorylation of ATF2 at Thr71. We identified the heterodimeric transcription factor ATF2/CREB as constitutively binding to the essential cAMP response element (CRE) site within the Ca2+-regulated DNA polymerase beta promoter and contributing to the activation of this promoter. Our data implicate ATF2 phosphorylation status as a nuclear sensor within PBMCs that monitors converging intracellular Ca2+-signalling pathways.
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PMID:Ca2+-induced p38/SAPK signalling inhibited by the immunosuppressant cyclosporin A in human peripheral blood mononuclear cells. 1051 4


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