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)

An endogenous DNA-synthesizing complex sensitive to ribonuclease has been found in purified preparations of swollen human sperm heads. Incorporation of [3H]dTTP into acid-precipitable material occurred in the presence of actinomycin D and required addition of dGTP, dCTP, dATP, plus Mg++. Polymerization was sensitive to pretreatment of the complex with pancreatic RNase A or Triton X-100. Exogenous activity was elicited by the synthetic template (dT)12--18-(rA)n but not by (dT)12--18-(dA)n or (dT)10. The complex sedimented from a 10,000 X g supernatant by centrifugation at 165,000 X g for 60 min and banded in sucrose at a density of 1.21--1.25 g/cm3. Endogenous RNase-sensitive DNA polymerase activity from cell-free seminal fluid was also detected in a fraction in sucrose at a density of 1.22 g/cm3. This activity was labile to freezing and stimulated by 0.04% Triton X-100, and thus differed from that of sperm heads.
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PMID:Ribonuclease-sensitive DNA-synthesizing complex in human sperm heads and seminal fluid. 105 11

An isothermal in vitro DNA amplification method was developed based upon the following sequence of reaction events. Restriction enzyme cleavage and subsequent heat denaturation of a DNA sample generates two single-stranded target DNA fragments (T1 and T2). Present in excess are two DNA amplification primers (P1 and P2). The 3' end of P1 binds to the 3' end of T1, forming a duplex with 5' overhangs. Likewise, P2 binds to T2. The 5' overhangs of P1 and P2 contain a recognition sequence (5'-GTTGAC-3') for the restriction enzyme HincII. An exonuclease-deficient form of the large fragment of Escherichia coli DNA polymerase I (exo- Klenow polymerase) [Derbyshire, V., Freemont, P. S., Sanderson, M. R., Beese, L., Friedman, J. M., Joyce, C. M. & Steitz, T. A. (1988) Science 240, 199-201] extends the 3' ends of the duplexes using dGTP, dCTP, TTP, and deoxyadenosine 5'-[alpha-thio]triphosphate, which produces hemiphosphorothioate recognition sites on P1.T1 and P2.T2. HincII nicks the unprotected primer strands of the hemiphosphorothioate recognition sites, leaving intact the modified complementary strands. The exo- Klenow polymerase extends the 3' end at the nick on P1.T1 and displaces the downstream strand that is functionally equivalent to T2. Likewise, extension at the nick on P2.T2 results in displacement of a downstream strand functionally equivalent to T1. Nicking and polymerization/displacement steps cycle continuously on P1.T1 and P2.T2 because extension at a nick regenerates a nickable HincII recognition site. Target amplification is exponential because strands displaced from P1.T1 serve as targets for P2 and strands displaced from P2.T2 serve as targets for P1. A 10(6)-fold amplification of a genomic sequence from Mycobacterium tuberculosis or Mycobacterium bovis was achieved in 4 h at 37 degrees C.
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PMID:Isothermal in vitro amplification of DNA by a restriction enzyme/DNA polymerase system. 130 14

The carbocyclic analog of 2'-deoxyguanosine (CdG) is active against herpes simplex virus (HSV), human cytomegalovirus, and human hepatitis-B virus. In order to understand the mechanism of action of this compound against HSV, we have evaluated (a) the incorporation of [3H]CdG into viral and host DNA in HEp-2 cells infected with HSV and (b) the interaction of the 5'-triphosphate of CdG (CdG-TP) with the HSV DNA polymerase and human DNA polymerases alpha, beta, and gamma (EC 2.7.7.7). Incubation of HSV-1-infected HEp-2 cells with [3H]CdG resulted in the incorporation of CdG into both the HSV and the host cell DNA. These results indicated that CdG-TP was used as a substrate for HSV DNA polymerase and for at least one of the cellular DNA polymerases. Degradation of both viral and host DNA with micrococcal nuclease and spleen phosphodiesterase indicated that CdG was incorporated primarily into internal positions in both DNAs. The viral DNA containing CdG sedimented in neutral and alkaline sucrose gradients in the same way as did viral DNA labeled with [3H]thymidine, indicating that the HSV DNA containing CdG was similar in size to untreated HSV DNA. CdG-TP was a competitive inhibitor of the incorporation of dGTP into DNA by the HSV DNA polymerase (Ki of 0.35 microM) and the human DNA polymerase alpha (Ki of 1 microM). CdG-TP was not a potent inhibitor of either DNA polymerase beta or gamma. Using DNA-sequencing technology, CdG-TP was found to be an efficient substrate for HSV DNA polymerase. Incorporation of CdG monophosphate (CdG-MP) into the DNA by HSV DNA polymerase did not interfere with subsequent chain extension. These results suggested that the antiviral activity of CdG was due to its incorporation into the DNA and subsequent disruption of viral functions. In contrast, CdG-TP was not as good as dGTP as a substrate for DNA synthesis by DNA polymerase alpha, and incorporation of CdG-MP by DNA polymerase alpha inhibited further DNA chain elongation.
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PMID:Incorporation of the carbocyclic analog of 2'-deoxyguanosine into the DNA of herpes simplex virus and of HEp-2 cells infected with herpes simplex virus. 131 7

Structural gene mutants were cloned and exploited to identify the major catalytic domains of Bacillus subtilis DNA polymerase III (BsPolIII), a 162.4-kDa [1437 amino acids (aa)] polymerase: 3'-5' exonuclease (Exo) required for replicative DNA synthesis. Analysis of the sequence, mutagenicity, and catalytic behavior of natural and site-directed point mutants of BsPolIII unequivocally located the domain involved in exonuclease catalysis within a 155-aa residue segment displaying homology with the Exo domain of Escherichia coli DNA polymerase I. Sequence analysis of four structural gene mutations which specifically alter then enzyme's reactivity to the inhibitory dGTP analog, 6-(p-hydroxyphenylhydrazino)uracil, and the inhibitory arabinonucleotide, araCTP, defined a domain (Pol) involved in dNTP binding. The Pol domain was in the C-terminal fourth of the enzyme within a 98-aa segment spanning aa 1175-1273. The primary structure of the domain was unique, displaying no obvious conservation in any other DNA polymerase, including the distantly related PolIIIs of the Gram- organisms, E. coli and Salmonella typhimurium.
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PMID:Localization of the exonuclease and polymerase domains of Bacillus subtilis DNA polymerase III. 131 3

We have previously proposed that DNA polymerase alpha-primase provides short RNA-DNA precursors below 40 nucleotides (DNA primers), several of which assemble into an Okazaki piece after intervening RNA has been removed and the gaps have been filled by DNA polymerase delta (or epsilon) (T. Nethanel, S. Reisfeld, G. Dinter-Gottlieb, and G. Kaufmann, J. Virol. 62:2867-2873, 1988; T. Nethanel and G. Kaufmann, J. Virol. 64:5912-5918, 1990). In this report, we confirm and extend these conclusions by studying the effects of deoxynucleoside triphosphate (dNTP) concentrations and the presence of ATP on the occurrence, dynamics, and configuration of DNA primers in simian virus 40 replicative intermediate DNA. We first show that these parameters are not significantly affected by a 10-fold increase in dNTP precursor concentrations. We then demonstrate that Okazaki piece synthesis can be arrested at the level of DNA primers by ATP depletion. The arrested DNA primers faced short gaps of 10 to 20 nucleotides at their 3' ends and were progressively chased into Okazaki pieces when ATP was restored. ATP could not be substituted in this process by adenosine-5'-O-(3-thiotriphosphate) or adenyl-imidodiphosphate. The chase was interrupted by aphidicolin but not by butylphenyl-dGTP. The results implicate an ATP-requiring factor in the switch between the two DNA polymerases engaged in Okazaki piece synthesis. They also suggest that the replication fork advances by small, DNA primer-size increments.
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PMID:Assembly of simian virus 40 Okazaki pieces from DNA primers is reversibly arrested by ATP depletion. 132 83

The metabolism and mode of action of penciclovir [9-(4-hydroxy-3-hydroxymethylbut-1-yl)guanine; BRL 39123] were studied and compared with those of acyclovir. In uninfected MRC-5 cells, low concentrations of the triphosphates of penciclovir and acyclovir were occasionally just detectable, the limit of detection being about 1 pmol/10(6) cells. In contrast, in cells infected with either herpes simplex virus type 2 (HSV-2) or varicella-zoster virus (VZV), penciclovir was phosphorylated quickly to give high concentrations of the triphosphate ester. Following the removal of penciclovir from the culture medium, penciclovir-triphosphate remained trapped within the cells for a long time (half-lives, 20 and 7 h in HSV-2- and VZV-infected cells, respectively). In HSV-2-infected cells, acyclovir was phosphorylated to a lesser extent and the half-life of the triphosphate ester was only 1 h. We were unable to detect any phosphates of acyclovir in VZV-infected cells. (S)-Penciclovir-triphosphate inhibited HSV-1 and HSV-2 DNA polymerase competitively with dGTP, the Ki values being 8.5 and 5.8 microM, respectively, whereas for acyclovir-triphosphate, the Ki value was 0.07 microM for the two enzymes. Both compounds had relatively low levels of activity against the cellular DNA polymerase alpha, with Ki values of 175 and 3.8 microM, respectively. (S)-Penciclovir-triphosphate did inhibit DNA synthesis by HSV-2 DNA polymerase with a defined template-primer, although it was not an obligate chain terminator like acyclovir-triphosphate. These results provide a biochemical rationale for the highly selective and effective inhibition of HSV-2 and VZV DNA synthesis by penciclovir and for the greater activity of penciclovir than that of acyclovir when HSV-2-infected cells were treated for a short time.
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PMID:Mode of antiviral action of penciclovir in MRC-5 cells infected with herpes simplex virus type 1 (HSV-1), HSV-2, and varicella-zoster virus. 133 46

Proliferating cell nuclear antigen (PCNA) and PCNA-dependent DNA polymerase delta were partially purified and characterized from rabbit bone marrow. Rabbit DNA polymerase delta sediments at 8.2 S upon glycerol density gradient centrifugation. Similar to calf thymus PCNA-dependent DNA polymerase delta, a 125-123-kDa doublet and 48-kDa polypeptides correlate with DNA polymerase activity. Western blotting of rabbit DNA polymerase delta with polyclonal antibody to calf thymus PCNA-dependent DNA polymerase delta gives the same results as calf thymus delta; the 125-123-kDa doublet is recognized. PCNA-dependent DNA polymerase delta is resistant to inhibition by dideoxynucleotides and is relatively insensitive to inhibition by N2-[p-(n-butyl)phenyl]dGTP. A 3'-->5' exonuclease copurifies with the DNA polymerase. The processivity of DNA polymerase delta alone is very low but greatly increases with the addition of PCNA from rabbit bone marrow or calf thymus. Comparative studies of the original DNA polymerase delta from rabbit bone marrow demonstrate a lack of recognition by antibodies to calf thymus delta and a high degree of processivity in the absence of PCNA. Additionally, the originally described DNA polymerase delta is a single polypeptide of 122 kDa. These features would recategorize the original delta to the epsilon category by recently proposed convention. PCNA-dependent DNA polymerase delta is a relatively minor component of rabbit bone marrow compared to DNA polymerase alpha and PCNA-independent DNA polymerase delta (epsilon), the relative proportions being alpha, 60%; delta, 7%; and epsilon, 30%.
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PMID:PCNA-dependent DNA polymerase delta from rabbit bone marrow. 136 Nov 52

[2',5'-Bis-O-(tert-butyldimethylsilyl)-beta-D-ribofuranosyl]-3'-spiro- 5"-(4"-amino-1",2"-oxathiole-2", 2"-dioxide)thymine (TSAO-T) is a representative of a novel class of nucleoside analogues that are endowed with a potent and specific activity against human immunodeficiency virus (HIV) type 1 and are targeted at the HIV-1 reverse transcriptase (RT). Inhibition of HIV-1 RT by TSAO-T was reversible and noncompetitive with respect to dGTP as the substrate and poly(C).oligo(dG) as the template/primer. In contrast with the nonnucleoside derivatives tetrahydroimidazo-[4,5,1-jk][1,4]- benzodiazepin-2(1H)-thione (TIBO) (R-82150), nevirapine (BI-RG-587) and the HEPT derivative I-HEPU-SdM, TSAO-T was not inhibitory to HIV-1 RT in the presence of other homopolymeric template/primers. It did not interfere with the DNA-dependent DNA polymerase function of HIV-1 RT, HIV-2 RT, herpes simplex virus type 1 DNA polymerase, or Taq polymerase. However, TSAO-T proved inhibitory to the HIV-1 RT reaction primed by Escherichia coli 16S/23S rRNA, irrespective of the nature of the radiolabeled 2'-deoxynucleotide 5'-triphosphate (dNTP) used. TSAO-T does not act as a DNA chain terminator. It interacts with HIV-1 RT at a nonsubstrate (dNTP)-binding site.
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PMID:Kinetics of inhibition of human immunodeficiency virus type 1 (HIV-1) reverse transcriptase by the novel HIV-1-specific nucleoside analogue [2',5'-bis-O-(tert-butyldimethylsilyl)-beta-D-ribofuranosyl]-3'-spiro-5 "- (4"-amino-1",2"-oxathiole-2",2"-dioxide)thymine (TSAO-T). 137 14

A thermostable DNA polymerase was prepared from Bacillus caldotenax by using a four-step chromatography procedure. The protein exists as a monomer of M(r) 94,000, has a pI of 4.9 and has no associated 3'-5' or 5'-3'-exonuclease activities or endonuclease activity. The temperature optimum of the enzyme was about 70 degrees C and the pH for maximum activity was about 7.5. The enzyme has an absolute requirement for a bivalent cation, and maximum activity was obtained at the unusually high concentration of 70 mM-MgCl2. Mg2+ could be replaced by MnCl2 or CoCl2, with decreased activity, at the lower optimal concentrations of 1 mM and 2.5 mM respectively. Enzyme activity was inhibited in the presence of 2',3'-dideoxy-TTP, arabinosyl-CTP and aphidicolin. Enzyme activity was stimulated with KCl concentrations of about 100 mM, and concentrations of univalent salts above about 150 mM inhibited activity. The enzyme could use activated calf thymus DNA, poly(dA).p(dT)10 or primed single-stranded phage M13 DNA as a template and maximum activity was obtained with poly(dA).p(dT)10. The enzyme was inactive on unprimed single-stranded DNA, double-stranded DNA and polyribonucleotide template/primer. The apparent Km values for individual dNTPs, determined with the other dNTPs at saturating concentrations, were 5.7 microM (dCTP), 6.3 microM (dATP, dGTP) and 6.4 microM (dTTP). The Km value for the overall incorporation of each dNTP from an equimolar mixture of all four dNTPs was 24.7 microM. The kcat. value was about 1.05 s-1. The kcat./Km value was 0.16-0.18 M-1.s-1 for individual dNTPs and 0.04 for the incorporation of an equimolar mixture of all four dNTPs. Some of the properties of the enzyme show it may be classified as an alpha-Type DNA polymerase.
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PMID:Purification and properties of DNA polymerase from Bacillus caldotenax. 144 54

Phi 29 DNA polymerase shares with other alpha-like DNA polymerases several regions of amino acid similarity. Among them, the two conserved regions characterized by the amino acid motifs "D-NSLYP" and "K--NS(L/V)YG," regions 1 and 2a, respectively, according to Blanco et al. (Blanco, L., Bernad, A., Blasco, M. A. and Salas, M. (1991) Gene (Amst.) 100, 27-38) have been proposed to be part of the polymerization active site of alpha-like DNA polymerases. One phi 29 DNA polymerase mutant in residue Tyr254, located in conserved region 1, and two mutants in residue Tyr390, located in conserved region 2a, have been characterized. The three phi 29 DNA polymerase mutant proteins were affected in polymerization when Mg(2+)-dNTPs were used as substrate. However, when the substrate was Mn(2+)-dNTP, mutants behaved as the wild-type phi 29 DNA polymerase. Mutant Tyr254 to Phe (Y254F) was strongly affected in the protein-primed initiation step of phi 29 DNA replication showing a decreased affinity for Me(2+)-dATP, the initiating nucleotide. Furthermore, the analysis of the template-independent deoxynucleotidylation of the TP by Y254F mutant polymerase is consistent with a change in the relative affinity for dNTPs. On the other hand, mutants Y390F and Y390S were found to be hypersensitive to the dNTP analogs 2-(p-n-butylanilino)dATP and N2-(p-n-butyl-phenyl)dGTP. The results obtained indicate that residues Tyr254 and Tyr390 are involved, directly or indirectly, in Me(2+)-dNTP binding.
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PMID:Phi 29 DNA polymerase active site. Mutants in conserved residues Tyr254 and Tyr390 are affected in dNTP binding. 152 62


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