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)

1. The enzymatic mechanism of mutagenic DNA repair is unknown. None of the characterized DNA polymerases is capable of polymerization past non-coding template structures. 2. A hypothesis is proposed according to which polymerization opposite non-coding template structures is catalyzed by the DNA-polymerase-associated 3'-5' exonuclease under conditions which shift the equilibrium of the 3'-5' exonuclease reaction DNAn + H2O in equilibrium DNAn-1 + dNMP to the left, i.e. to the incorporation of deoxynucleoside monophosphates. 3. Conditions which favor the incorporation of dNMP by the reversed 3'-5' exonuclease reaction include a high dNMP concentration, a coupled H2O-consuming reaction and a hydrophobic enzyme environment. 4. The statements of the hypothesis are supported by published work on the biochemistry of DNA polymerases and their associated 3'-5' exonucleases, the genetics of mutagenic DNA repair and the involvement of Escherichia coli DNA polymerase III in this process. 5. The hypothesis offers an explanation of the mutator and antimutator properties of certain genes, in particular of DNA polymerase genes, and also explains how some drugs act mutagenically during DNA replication and antimutagenically against mutagenic DNA repair.
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PMID:Mutagenic DNA repair: insertion of nucleotides opposite non-coding template structures by a reversed 3'-5' exonuclease reaction? A hypothesis. 39 66

DNA synthesis starts about 12 h after water imbibition in wheat embryos. We have determined that noticeable amounts of labelled thymidine are found inside the embryo only after 6 hr of germination. DNA polymerase C from ungerminated wheat embryos decreased markedly in activity during the first hours of germination, whereas the activities of DNA polymerases A and B increased, having a maximum at about 15 h or germination. Serological evidence has suggested a clear antigenic relationship between DNA polymerases A and C. Although the pool of ATP increases rapidly after water imbibition, the increase in the pool of dNTP species was much slower.
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PMID:Factors affecting the onset of deoxyribonucleic acid synthesis during wheat embryo germination. Study of the changes in DNA polymerases A, B and C and the pool of DNA precursors. 48 51

A 10(-3) dilution of pooled serum (positive for hepatitis B e antigen and DNA polymerase activity) containing hepatitis B virus (HBV) in a titer 10(5) times the chimpanzee-infectious dose, was heated under water maintained at 60 C for 10 hr. There was a twofold decrease in the titer of hepatitis B surface antigen (HBsAg) as measured by reverse passive hemagglutination after the heat treatment. The heated, diluted serum was still infectious and caused HBV infections in both seronegative chimpanzees given 1-ml iv inoculations of the diluted serum. However, the infectivity of the virus was decreased approximately 10(4)-fold by heat treatment as judged from the prolonged incubation period before appearance of HBsAg in blood. This figure was based on the inverse linear relation between the dose of HBV and the incubation period. The incomplete inactivation of HBV by heat treatment at 60 C for 10 hr should be emphasized because it is widely accepted that heat treatment destroys HBV.
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PMID:Incomplete inactivation of hepatitis B virus after heat treatment at 60 C for 10 hours. 68 99

The polymerizing ability of Escherichia coli DNA polymerase III is enhanced by a variety of water-miscible organic solvents of which dimethyl sulfoxide at 17% (v/v) is the most effective tested. The extent of stimulation depends on the organic solvent used and its concentration, but shows no obvious correlation with the chemical structure of the solvent or its dielectric constant. Kinetic studies indicate that the mechanism of stimulation is complex.
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PMID:The effects of organic solvents on Escherichia coli DNA polymerase III. 109 95

In vitro DNA synthesis on single stranded templates damaged by singlet oxygen was investigated in the supF tRNA gene sequence, using several DNA polymerases. Singlet oxygen was generated by the thermal decomposition of the water soluble with the endoperoxide of disodium 3,3'-(1,4-naphthylidene) dipropionate (NDPO2). The data demonstrated that damage at deoxyguanosine residues interrupts DNA polymerization. Modified T7 phage and Thermus aquaticus DNA polymerases were found to synthesize DNA fragments which terminated opposite deoxyguanosine, while T4 phage DNA polymerase and avian myeloblast virus reverse transcriptase were blocked one nucleotide 3' to deoxyguanosine positions on the template. DNA polymerase I (Klenow fragment) from Escherichia coli was inhibited at both positions, before and at the putative damaged sites. The blocking lesions, induced by 5 mM NDPO2, were estimated to be approximately 1.5 per 260 nucleotides, corresponding to 2% of deoxyguanosines. The distribution of lesions in the supF gene did not reveal any specific sequence context which showed distinct susceptibility to the attack of singlet oxygen.
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PMID:DNA synthesis blocking lesions induced by singlet oxygen are targeted to deoxyguanosines. 137 92

The human immunodeficiency virus type 1 (HIV-1) released by infected individuals or present in human and hospital wastes can potentially cause contamination problems. The presence of HIV-1 was investigated in 16 environmental samples, including raw wastewater, sludge, final effluent, soil, and pond water, collected from different locations. A method was developed to extract total nucleic acids in intact form directly from the raw samples or from the viral concentrates of the raw samples. The isolated nucleic acids were analyzed for the presence of HIV-1 by using in vitro amplification of the target sequences by the polymerase chain reaction (PCR) method. HIV-1-specific proviral DNA and viral RNA were detected in the extracted nucleic acids obtained from three wastewater samples by this method. The specificity of the PCR-amplified products was determined by Southern blot hybridization with an HIV-1-specific oligonucleotide probe, SK19. The isolated nucleic acids from wastewater samples were also screened for the presence of poliovirus type 1, representing a commonly found enteric virus, and simian immunodeficiency virus, representing, presumably, rare viruses. While poliovirus type 1 viral RNA was found in all of the wastewater samples, none of the samples yielded a simian immunodeficiency virus-specific product. No PCR-amplified product was yielded when wastewater samples were directly used for the detection of HIV-1 and poliovirus type 1. The wastewater constituents appeared to be inhibitory to the enzymes reverse transcriptase and DNA polymerase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Presence of human immunodeficiency virus nucleic acids in wastewater and their detection by polymerase chain reaction. 147 40

Zidovudine (azidothymidine (AZT)) inhibits human immunodeficiency virus replication, prolongs survival, and delays progression of acquired immune deficiency syndrome. We determined AZT-induced molecular and ultrastructural changes in the rat heart. Rats (3 per group) were given drinking water with or without AZT (0.2 to 1.0 mg/ml; 29 to 102 mg/kg/day). After 21, 35, or 49 days, hearts were glutaraldehyde-fixed by abdominal aortic perfusion, processed, and examined by transmission electron microscopy. In parallel, myocardial RNA was extracted from hearts (AZT dose: 1 mg/ml; 35 days) and subjected to Northern analysis using cDNA probes for: alpha c-actin, troponin C, mitochondrial creatine kinase and malate dehydrogenase, a portion of the mitochondrial genome containing cytochrome b coding region (pMM26), and glyceraldehyde-3-phosphate dehydrogenase. Results showed marked and widespread cardiac mitochondrial swelling with fractured and disrupted cristae after 35 days of 1 mg/ml AZT. After a 14-day recovery, these ultrastructural defects did not reverse. Changes were not present in myocardium after 21 days of AZT nor after 35 days of lower dose AZT (0.2 mg/ml). Mitochondrial cytochrome b mRNA expression was depressed in AZT-treated rat hearts (35 days; 1 mg/ml AZT). mRNAs encoding glyceraldehyde-3-phosphate dehydrogenase, alpha c-actin, troponin C, mitochondrial creatine kinase, malate dehydrogenase, and mitochondrial ribosomal RNAs remained unchanged. AZT disrupts cardiac mitochondrial ultrastructure and expression of mitochondrial cytochrome b mRNA in a dose- and time-dependent fashion. The mechanism of AZT cardiotoxicity may relate to inhibition of mitochondrial DNA replication (at the level of DNA polymerase gamma) as postulated by others.
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PMID:Mitochondrial ultrastructural and molecular changes induced by zidovudine in rat hearts. 171 47

DNA polymerase I (Pol I) is an enzyme of DNA replication and repair containing three active sites, each requiring divalent metal ions such as Mg2+ or Mn2+ for activity. As determined by EPR and by 1/T1 measurements of water protons, whole Pol I binds Mn2+ at one tight site (KD = 2.5 microM) and approximately 20 weak sites (KD = 600 microM). All bound metal ions retain one or more water ligands as reflected in enhanced paramagnetic effects of Mn2+ on 1/T1 of water protons. The cloned large fragment of Pol I, which lacks the 5',3'-exonuclease domain, retains the tight metal binding site with little or no change in its affinity for Mn2+, but has lost approximately 12 weak sites (n = 8, KD = 1000 microM). The presence of stoichiometric TMP creates a second tight Mn2+ binding site or tightens a weak site 100-fold. dGTP together with TMP creates a third tight Mn2+ binding site or tightens a weak site 166-fold. The D424A (the Asp424 to Ala) 3',5'-exonuclease deficient mutant of the large fragment retains a weakened tight site (KD = 68 microM) and has lost one weak site (n = 7, KD = 3500 microM) in comparison with the wild-type large fragment, and no effect of TMP on metal binding is detected. The D355A, E357A (the Asp355 to Ala, Glu357 to Ala double mutant of the large fragment of Pol I) 3',5'-exonuclease-deficient double mutant has lost the tight metal binding site and four weak metal binding sites. The binding of dGTP to the polymerase active site of the D355A,E357A double mutant creates one tight Mn2+ binding site with a dissociation constant (KD = 3.6 microM), comparable with that found on the wild-type enzyme, which retains one fast exchanging water ligand. Mg2+ competes at this site with a KD of 100 microM. It is concluded that the single tightly bound Mn2+ on Pol I and a weakly bound Mn2+ which is tightened 100-fold by TMP are at the 3',5'-exonuclease active site and are essential for 3',5'-exonuclease activity, but not for polymerase activity. Additional weak Mn2+ binding sites are detected on the 3',5'-exonuclease domain, which may be activating, and on the polymerase domain, which may be inhibitory. The essential divalent metal activator of the polymerase reaction requires the presence of the dNTP substrate for tight metal binding indicating that the bound substrate coordinates the metal.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Metal binding to DNA polymerase I, its large fragment, and two 3',5'-exonuclease mutants of the large fragment. 220 84

A new method was developed for the detection of single-base mutations in DNA. The polymerase chain reaction was used to prepare DNA fragments of up to 1 kb. Fragments that differed by a single-base were combined, denatured and renatured to generate heteroduplexes. The heteroduplexes were reacted with a water-soluble carbodiimide under conditions in which the carbodiimide modified Gs and Ts that were not base paired. The DNA was then used as a template for primer extension with Taq DNA polymerase under conditions in which extension terminated at the site of the carbodiimide-modified base and generated a 32P-labeled fragment that was identified by polyacrylamide gel electrophoresis as a fragment smaller than the full length product. The procedure detected all four general classes of single-base mutations in several different sequence contexts. The site of the mutation was located to within about 15 bp. Extension with both a 5'- and a 3'-primer made it possible to confirm the site of the mutation in most DNA samples or detect a mutation in heteroduplexes even if a G or T in one strand was unreactive because of its sequence context. The procedure appears to have several advantages over previously published techniques.
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PMID:Detection of single-base mutations by reaction of DNA heteroduplexes with a water-soluble carbodiimide followed by primer extension: application to products from the polymerase chain reaction. 237 15

Little is known about the cellular mechanisms responsible for the trophic effects of cholecystokinin (CCK) and secretin on the rat pancreas, and controversy exists with regard to the interaction between these two peptides. In the present study attempts were made to elucidate the time course of events leading to pancreatic growth and to clarify the interaction between the peptides when given as continuous, long-term intravenous infusions to rats. A cholecystokinin-like peptide (CCK-LP) and secretin were given as a continuous intravenous infusion to conscious and unrestrained animals with free access to food and water for 0.5, 1, 2, 4, 6, 8, 12, 24, 48, and 96 h. The pancreas was quickly removed and analyzed for variables indicating synthesis and accumulation of DNA, RNA, and polyamines. CCK-LP increased the activity of RNA polymerase already after 1 h, whereas an increase in the activity of ornithine decarboxylase (ODC) and the level of putrescine was seen at 4 h. Spermidine was increased after 12 h. The activities of DNA polymerase and thymidine kinase were increased at 12 and 24 h, respectively, whereas the total contents of DNA and RNA were first increased at 48 h. Secretin alone showed a marked but short-lived effect on polyamine synthesis and a weak effect on the variables indicating protein synthesis and growth. When the two peptides were given together, a large but transient potentiation of ODC activity was observed, whereas no interaction was seen on polyamines, RNA synthesis, or pancreatic growth. The present study confirms the trophic effects of CCK and secretin on the rat pancreas but fails to confirm an interaction between the two peptides on growth. Both peptides stimulate polyamine synthesis, and ODC appears to be an early and sensitive indication of their trophic effect. The initiation of RNA synthesis appears to be independent of the ODC activity.
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PMID:Short- and long-term effects of secretin and a cholecystokinin-like peptide on pancreatic growth and synthesis of RNA and polyamines. 247 84


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