Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.7.7.7 (
DNA polymerase
)
17,007
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A protein required for the elongation of replicating intermediates of adenovirus (Ad) DNA to full length has been isolated and characterized. This factor, isolated from nuclear extracts of uninfected HeLa cells, has been designated nuclear factor II. In the presence of Ad DNA with proteins at each 5' end (Ad DNA-protein) and three proteins coded for by the Ad genome [the preterminal protein (pTP), the
DNA polymerase
(Ad
Pol
), and the DNA binding protein (Ad DBP)], nuclear factor II complementing activity is detected only in the presence of host nuclear factor I. Highly purified preparations of nuclear factor II that are free of detectable
DNA polymerase alpha
, beta, and gamma activities contain a DNA topoisomerase activity. Furthermore, type I DNA topoisomerases purified from HeLa cells and calf thymus substitute for nuclear factor II complementing activity in the in vitro Ad DNA replication system. These results indicate that a protein that is involved in higher order DNA structure is required for Ad replication. This protein plus the purified proteins described above carry out the initiation and synthesis of full-length 36,000-base-pair Ad DNA.
...
PMID:Adenovirus DNA replication in vitro: synthesis of full-length DNA with purified proteins. 630 11
The polymerization reaction catalyzed by Escherichia coli
DNA polymerase I
(
Pol
I) has been studied by using the homopolymer template-primer system poly(dA).oligo(dT). Isotope-partitioning experiments indicate that the reaction follows an ordered mechanism in which
Pol
I first combines with template-primer to form an E.poly complex followed by addition of MgTTP and catalysis. The parameters governing the binding of
Pol
I to the template-primer are kon = 1.2 X 10(6) M-1 s-1, koff = 0.25 s-1, and KD = 2 X 10(-7) M. Efforts to demonstrate the catalytic competence of the binary E.MgTTP complex were unsuccessful. Following initiation of the catalytic cycle,
Pol
I catalyzes the incorporation of an average of 40-50 TTP molecules into polymer before dissociating from the template-primer. The processive nature of the polymerization reaction as reflected by the isotope-trapping time dependence can be accounted for by a model in which processive synthesis is treated as a simple partitioning between continued polymerization (kcat = 3.8 s-1, 22 degrees C) and dissociation of the enzyme from the template-primer under steady-state conditions (koffss = 0.1 s-1). The rapid quench time course of the polymerization reaction (kcat = 2.5 s-1, 20 degrees C) exhibited a pre-steady-state burst consistent with two partially rate-determining steps, one of which precedes the actual chemical phosphodiester bond-forming step (k = 4.6 s-1) and the other which follows this step (k = 4.0 s-1). Binding of MgTTP to the E.poly complex was shown to be a rapid equilibrium step by steady-state isotope-partitioning experiments. This suggested that the first rate-determining step may be a first-order isomerization which follows the binding of substrates and precedes bond formation.
...
PMID:Elementary steps in the DNA polymerase I reaction pathway. 635 5
A polA1 mutation in the
DNA polymerase I
gene of E. coli results in a drastic reduction of the frequency of mutagenesis induced by 5-bromo-2'-deoxyuridine (BUdR). Comparisons of the effect of a polA1 mutation on mutagenesis induced by methyl methane sulfonate (MMS), ultraviolet irradiation (UV) and 2-aminopurine (2-AP) demonstrated that a similar effect of a polA1 mutation is observed with MMS. This effect is much less marked with UV-and-2-AP-induced mutagenesis. It follows that
DNA polymerase I
plays a key role in the process of mutagenesis induced by BU and MMS. Bearing in mind that mutagenesis provoked by UV, MMS and BU involves participation of the accompanying induced error-prone system, the sources of the differences in requirement for
DNA polymerase I
are critically examined.
Acta Biochim
Pol
1984
PMID:Mutagenesis induced by 5-bromouracil and methyl methane sulfonate: role of DNA polymerase I. 637 42
N4- Methoxydeoxycytidine triphosphate ( mo4dCTP ) substitutes for dTTP in poly d[A-T] synthesis with E. coli
DNA polymerase I
(
Pol
I). In parallel experiments using as template-primer, poly d[G-C], no incorporation of [14C] mo4dC was detected. This indicates that this deoxy derivative acts as the imino tautomer, as previously found for the riboderivative . Nearest neighbor analysis of transcripts of poly d[A-T] containing mo4dC shows that the derivative substitutes for only one base. In replication, singlestranded mo4dC -containing polymers gave little misincorporation, including that of dATP which can hydrogen-bond to mo4dC in the imino form, if the methoxy group is anti to the N-3. It is therefore assumed that the methoxy group is constrained anti in a polymer such as d[A-T], but can be in the syn form in singlestranded polymers and not recognized by
DNA polymerase
. mo4dC destabilizes the poly d[A-T] helix, as indicated by a lowered and less cooperative melting. Steric factors such as adjacent base displacement were invoked for similar findings with the doublestranded r( U61 , mo4C39 ) X r(A).
...
PMID:N4-Methoxydeoxycytidine triphosphate is in the imino tautomeric form and substitutes for deoxythymidine triphosphate in primed poly d[A-T] synthesis with E. coli DNA polymerase I. 637 35
The accuracy with which Escherichia coli
DNA polymerase I
(
Pol
I) copies natural DNA in vitro has been determined. When phi X174 viral DNA containing an amber mutation (am3) is primed with a single restriction endonuclease fragment, copied in vitro with
Pol
I and then expressed in E. coli spheroplasts (Weymout, L. A., and Loeb, L. A. (1978) Proc. Natl. Acad. Sci. U. S. A. 75, 1924), the reversion frequency of this DNA is greater than that of uncopied DNA. This change in reversion frequency can be increased by selectively increasing the concentration of either dATP or dCTP relative to the other deoxyribonucleotide substrates. DNA sequence analyses of revertants obtained from substrate pool bias experiments demonstrates that the revertants contain the selectively biased nucleotide as an incorrect substitution at position 587 of the am3 codon. We have analyzed the product of the in vitro
Pol
I reaction using neutral and alkaline sucrose gradients. Fifty per cent of the input phi X174 DNA template molecules are copied past the am3 site. The phenotypic expression of the product (revertant) strand in the spheroplast assay was estimated using a model heteroduplex molecule similar in structure to the product of the reaction and containing a single base mismatch (A:A or A:C) at position 587. Using these data, and by extrapolation from pool bias experiments, we estimate the error rate of
Pol
I in Mg2+-activated reactions using equimolar concentrations of the four deoxynucleotide substrates is 1/680,000 for an A:C mispair and < 1/6,300,000 for an A:A mispair at position 587 of the am3 codon in phi X174 DNA.
...
PMID:On the fidelity of DNA replication. The accuracy of Escherichia coli DNA polymerase I in copying natural DNA in vitro. 644 43
The contribution of proofreading to the fidelity by which Escherichia coli
DNA polymerase I
copies natural DNA has been analyzed by two independent criteria. With phi X174 am 3 DNA as a template, there is approximately a 25-fold increase in noncomplementary base substitutions at position 587 when the concentration of the next correct nucleotide, dATP, is increased. Sequence analysis indicates that the mistakes represent misincorporation of C in place of T at position 587. This mutagenic response is presumed to result from a decrease in the probability of excision by the 3' leads to 5' exonuclease of
Pol
I and is considered within the context of current theories on proofreading. No enhanced mutagenicity is observed with avian myeloblastosis virus
DNA polymerase
, which lacks a 3' leads to 5' exonuclease. Using a second approach, an enhancement in mutagenesis as large as 30-fold is observed to result from the addition of deoxynucleoside monophosphates to the
Pol
I reaction. This mutagenicity occurs with any of the four deoxynucleoside monophosphates and is independent of a significant inhibition of DNA synthesis, thus supporting proofreading models in which sites of excision and incorporation are independent. The results of both approaches suggest that the exonucleolytic activity of
Pol
I can increase fidelity by approximately 30-fold on natural DNA, a value much higher than previous estimates with polynucleotide templates. The effect of the next correct nucleotide in decreasing accuracy provides an in vitro probe for screening eukaryotic cells for putative proofreading functions.
...
PMID:On the fidelity of DNA replication. Effect of the next nucleotide on proofreading. 645 68
The 140,000-Da adenovirus-encoded
DNA polymerase
(Ad
Pol
) is required for viral DNA replication both in vitro and in vivo. The polymerase co-purifies in a complex with the 80,000-Da precursor (pTP) of the terminal protein (TP) found covalently attached to the 5' ends of adenovirus DNA. To better understand their function in DNA replication, we have examined the properties of the Ad
Pol
and the pTP X Ad
Pol
complex on natural and synthetic DNA templates. The pTP X Ad
Pol
complex utilizes a variety of homopolymer template-primer combinations including poly(dC) X oligo(dG), poly(dA) X oligo(dT), poly(dT) X oligo(dA), and poly(dT) X oligo(rA). With poly(dT) as template and oligo(rA) or oligo(dA) as primer, DNA synthesis by the pTP X Ad
Pol
complex is stimulated as much as 100-fold by the 59,000-Da adenovirus DNA-binding protein (Ad DBP). ATP (4 mM) can further increase the rate of DNA synthesis 3- to 10-fold. The Ad DBP does not stimulate the activity of host (HeLa cell)
DNA polymerase alpha
with poly(dT) X oligo(dA) (or oligo(rA)) as the template-primer, and Escherichia coli single-stranded DNA binding protein cannot substitute for the Ad DBP in the stimulation of the Ad
Pol
activity. Under optimal conditions, poly(dA) chains 30,000 nucleotides in length are formed indicating that the Ad
Pol
can be a highly processive enzyme. An exonuclease activity co-sediments with the pTP X Ad
Pol
complex during glycerol gradient centrifugation, and co-purifies with the 140,000-Da Ad
Pol
after dissociation of the pTP X Ad
Pol
complex with urea. The Ad
Pol
-associated nuclease hydrolyzes single-stranded DNA in a 3'----5' direction and is at least 10-fold more active on single-stranded DNA than on duplex DNA. The Ad
Pol
has no detectable endonuclease activity on single-stranded DNA or duplex circular DNA. Analysis of the products of the nuclease activity showed that 5'-deoxynucleoside monophosphates were released during the hydrolysis of single-stranded DNA. The Ad DBP inhibits the hydrolysis of DNA by the polymerase-associated nuclease activity.
...
PMID:Properties of the adenovirus DNA polymerase. 654 Feb 63
Isolated nuclei from pregnant rabbit mammary glands were labelled with [3H]dTTP under conditions for DNA synthesis and subsequently digested with micrococcal nuclease. Replicating chromatin was found to exhibit increased susceptibility towards the nuclease. Analysis of chromatin digestion products by sucrose density gradient centrifugation demonstrated the association of in vitro replicated DNA with nucleosomes. Furthermore, the distribution of DNA polymerizing activity was studied in isolated nuclease-digested mammary gland chromatin. About 90% of all recovered nuclear DNA polymerizing activity cosedimented with nucleosomal particles, mainly with mononucleosomes. The distribution of DNA polymerases alpha and beta in chromatin isolated from the mammary glands of pregnant and lactating rabbits was compared. In these physiological states the mononucleosome-associated
DNA polymerase alpha
activity varied in accordance with the rate of DNA synthesis.
Acta Biochim
Pol
1984
PMID:In vitro rabbit mammary gland chromatin replication studied by micrococcal nuclease digestion. 654 83
Only one
DNA polymerase
is present in the microsomal fraction of the cells producing AMV. Chromatographically purified enzyme shows the properties of revertase, that is it transcribes in DNA the information encoded in natural RNA. The enzyme possesses identical chromatographic characteristics and the same template specificity as the enzyme isolated from pure AMV virus. Thus the virus enzyme and the cellular
DNA polymerase
from the microsomal fraction cannot be differentiated on the basis of certain properties.
Acta Haematol
Pol
PMID:[DNA polymerase in the microsomal fraction of the myeloblasts of chickens infected with avian myeloblastosis virus]. 729 88
1. The amounts of deoxynucleotides incorporated during an extensive replication by
DNA polymerase alpha
into poly(dA)-oligo(dT)12-18 and damaged DNA containing 2.5 incisions per molecule and 3.7% single-stranded DNA, corresponded to the amounts of non-complexed poly(dA) and single-stranded fraction of DNA, respectively. The amounts of the corresponding
DNA polymerase beta
products were several times higher. In the case of activated DNA they exceeded input DNA. The
DNA polymerase beta
reaction on this template was continued till substrate exhaustion. 2. The reaction of DNA polymerase beta with activated DNA, leading to net DNA synthesis, was template-directed, required Mg2+ and four deoxynucleoside triphosphates; was not inhibited by
DNA polymerase alpha
inhibitors, but was sensitive to 2',3'-dideoxythymidine triphosphate. The DNA product was completely digestable by DNAse I and showed a base ratio typical of calf thymus DNA. 3. The essential difference in the reaction mechanism between
DNA polymerase alpha
and beta suggests the ability of the latter enzyme to synthesize DNA with displacement of the non-replicated strand.
Acta Biochim
Pol
1981
PMID:Net DNA synthesis catalysed by calf thymus DNA polymerase beta. 732
<< Previous
1
2
3
4
5
6
7
8
9
10
