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Target Concepts:
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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)
As a step toward the molecular elucidation of the putative replicational apparatus associated with the nuclear matrix, we have investigated the possible matrix association of several replicational related enzymes. In addition to the previously identified
DNA polymerase alpha
, DNA primase, 3'-5' exonuclease, RNase H, and
DNA methylase
were all recovered at significant levels (20-30% of total nuclear activity) in nuclear matrix isolated from regenerating rat liver during maximal in vivo replication (22 h post-hepatectomy). In contrast, DNA ligase was not detected on the nuclear matrix even though significant activity was present in isolated nuclei. Examination of the replicative dependency of these enzyme activities following partial hepatectomy revealed pre-replicative elevations which were distinct for each matrix-bound enzyme. A second late-replicative peak in
DNA methylase
is consistent with a role of this matrix-bound enzyme in the maintenance of the inheritable methylation pattern. Mild sonication resulted in a significant release of all of these activities except RNase H. A major portion of the matrix-solubilized
DNA polymerase alpha
, DNA primase, 3'-5' exonuclease, and
DNA methylase
activities cosedimented on sucrose gradients between approximately 8-12 S. Our results are consistent with the organization of at least a portion of these replicative enzymes into nuclear matrix-bound replicational complexes. We also propose a novel pre-replicative assembly model of the matrix-bound replicational apparatus in which DNA primase plays an initial and critical role.
...
PMID:Pre-replicative association of multiple replicative enzyme activities with the nuclear matrix during rat liver regeneration. 302 82
Human SY5Y neuroblastoma cells which were differentiated in culture by treatment with 7S murine nerve growth factor for 5 weeks and selection with aphidicolin (L. Jensen, Dev. Biol. 120:56-64, 1987) demonstrated a considerably slower rate of removal of DNA adducts of benzo[a]pyrene, benzo[a]pyrenediolepoxide, and N7-methylguanine than did undifferentiated mitotic cells. A dramatic decline in unscheduled DNA synthesis induced by UV radiation was similarly observed.
DNA polymerase beta
and uracil DNA glycosylase were unchanged after differentiation,
DNA polymerase alpha
and
DNA methylase
decreased roughly threefold, and total apurinic-apyrimidinic endonuclease activity increased roughly threefold after treatment.
...
PMID:A reduced rate of bulky DNA adduct removal is coincident with differentiation of human neuroblastoma cells induced by nerve growth factor. 314 94
In order to understand further the molecular mode of action of 5-Aza-2'-deoxycytidine (5-AZA-dCyd), a potent antileukemic agent, we prepared enzymatically 5-Aza-2'-deoxycytidine 5'-triphosphate (5-AZA-dCTP) and performed studies with purified
DNA polymerase alpha
and
DNA methylase
from mammalian cells.
DNA polymerase alpha
catalyzed the incorporation of 5-AZA-dCTP into DNA. The apparent Km value for 5-AZA-dCTP was estimated to be 3.0 microM; the Km of dCTP was 2.0 microM. The apparent Vmax of 5-AZA-dCTP was slightly lower than that for dCTP. 5-AZA-dCTP was a weak competitive inhibitor (Ki 4.3 microM) with respect to dCTP. Template studies with 5-AZA-dCTP showed that this nucleotide analogue was incorporated into poly(dIC), but not into poly(dAT), suggesting that the incorporation follows the rules of Watson-Crick base pairing. Incorporation of 5-AZA-dCTP into hemimethylated DNA produced a significant inhibition of
DNA methylase
. These results show that 5-AZA-dCTP is a very good substrate for
DNA polymerase alpha
and that its incorporation into DNA inhibits DNA methylation.
...
PMID:Incorporation of 5-Aza-2'-deoxycytidine-5'-triphosphate into DNA. Interactions with mammalian DNA polymerase alpha and DNA methylase. 619 Nov 92
A readily sedimentable nuclear fraction from Chinese hamster embryo fibroblast (CHEF/18) cells catalyzes incorporation of 14C-rCDP into DNA. Data indicated that this incorporation is made possible by the conversion of rCDP into a small and functionally compartmentalized, rather than a large and freely diffusible, pool of dCTP. This catalytically active sedimentable fraction from S phase CHEF/18 cells or actively replicating calf thymus cells contains nascent and template DNA, and numerous enzymes required for DNA biosynthesis including ribonucleoside diphosphate reductase, thymidylate synthetase, dihydrofolate reductase,
DNA methylase
, topoisomerase and
DNA polymerase
. We have named this catalytically active macromolecule the replitase. The replitase fraction contained spherical particles with a diameter of approximately 24 to 30 nm and had an estimated molecular weight on the order of 5 X 10(6).
...
PMID:Rapid incorporation of label from ribonucleoside disphosphates into DNA by a cell-free high molecular weight fraction from animal cell nuclei. 629 95
At an early purification stage,
DNA polymerase alpha
holoenzyme from calf thymus can be separated into four different forms by chromatography on DEAE-cellulose. All four enzyme forms (termed A, B, C, and D) are capable of replicating long single-stranded DNA templates, such as parvoviral DNA or primed M13 DNA. Peak A possesses, in addition to the
DNA polymerase alpha
, a double-stranded DNA-dependent ATPase, as well as DNA topoisomerase type II, 3'-5' exonuclease, and RNase H activity. Peaks B, C, and D all contain, together with
DNA polymerase alpha
, activities of primase and DNA topoisomerase type II. Furthermore, peak B is enriched in an RNase H, and peaks C and D are enriched in a 3'-5' exonuclease.
DNA methylase
(DNA methyltransferase) was preferentially identified in peaks C and D. Velocity sedimentation analyses of the four peaks gave evidence of unexpectedly large forms of
DNA polymerase alpha
(greater than 11.3 s), indicating that copurification of the above putative replication enzymes is not fortuitous. With moderate and high concentrations of salt, enzyme activities cosedimented with
DNA polymerase alpha
. Peak C is more resistant to inhibition by salt and spermidine than the other three enzyme forms. These results suggest the existence of a leading strand replicase (peak A) and several lagging strand replicase forms (peaks B, C, and D). Finally, the salt-resistant C form might represent a functional
DNA polymerase alpha
holoenzyme, possibly fitting in a higher-order structure, such as the replisome or even the chromatin.
...
PMID:Mammalian DNA polymerase alpha holoenzymes with possible functions at the leading and lagging strand of the replication fork. 658 75
Despite the high abundance of
Aquificae
in many geothermal systems, these bacteria are difficult to culture and no viruses infecting members of this phylum have been isolated. Here, we describe the complete, circular dsDNA Uncultivated Virus Genome (UViG) of
Thermocrinis
Octopus Spring virus (TOSV), derived from metagenomic data, along with eight related UViGs representing three additional viral species. Despite low overall similarity among viruses from different hot springs, the genomes shared a high degree of synteny, and encoded numerous genes for nucleotide metabolism, including a PolA-type
DNA polymerase
polyprotein with likely accessory functions, a DNA Pol III sliding clamp, a thymidylate kinase, a DNA gyrase, a helicase, and a
DNA methylase
. Also present were conserved genes predicted to code for phage capsid, large and small subunits of terminase, portal protein, holin, and lytic transglycosylase, all consistent with a distant relatedness to cultivated
Caudovirales
. These viruses are predicted to infect
Aquificae
, as multiple CRISPR spacers matching the viral genomes were identified within the genomes and metagenomic contigs from these bacteria. Based on the predicted atypical bi-directional replication strategy, low sequence similarity to known viral genomes, and unique position in gene-sharing networks, we propose a new putative genus, "
Pyrovirus
," in the order
Caudovirales
.
...
PMID:Diversity and Distribution of a Novel Genus of Hyperthermophilic
Aquificae
Viruses Encoding a Proof-Reading Family-A DNA Polymerase. 3328 78
