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Query: EC:6.5.1.2 (
DNA ligase
)
2,749
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To study the mechanism of DNA excision repair, a DNA repair system employing permeable mouse sarcoma (SR-C3H/He) cells was established and characterized. SR-C3H/He cells were permeabilized with a 0.0175% Triton X-100 solution. The permeable cells were treated with 1 mM ATP and 0.11 mM bleomycin, and then washed thoroughly to remove ATP and bleomycin. Repair DNA synthesis occurred in the bleomycin-damaged, permeable SR-C3H/He cells when incubated with ATP and four deoxyribonucleoside triphosphates. The repair nature of the DNA synthesis was confirmed by the BrdUMP density shift technique, and by the reduced sensitivity of the newly synthesized DNA to Escherichia coli exonuclease III. The DNA synthesis was optimally enhanced by addition of 0.08 M NaCl. Studies using selective inhibitors of DNA synthesis showed that aphidicolin-sensitive DNA polymerase (
DNA polymerase alpha
and/or delta) and DNA polymerase beta were involved in the repair process. The present DNA repair system is thought to be useful to study nuclear DNA damage by bleomycin, removal of the damaged ends by an exonuclease, repair DNA synthesis by DNA polymerases and repair patch ligation by
DNA ligase
(s).
...
PMID:Studies on bleomycin-induced repair DNA synthesis in permeable mouse ascites sarcoma cells. 247 92
Bleomycin-induced DNA repair synthesis in the permeabilized HeLa cells was sensitive to aphidicolin, an inhibitor of
DNA polymerase alpha
and delta, and to dideoxythymidine triphosphate (ddTTP), a specific inhibitor of DNA polymerase beta. Upon combined treatment with these inhibitors, the DNA repair synthesis was inhibited to an even higher degree. This indicated that the aphidicolin- and ddTTP-sensitive DNA repair syntheses may occur by independent mechanisms. The structure of incomplete repair patches being accumulated in the presence of these inhibitors was investigated by digestion of DNA with exonuclease III after incubation with Klenow fragment and T4
DNA ligase
. The results have suggested that the patch accumulating in the presence of aphidicolin is a single-stranded gap made by excision enzyme(s), whereas that accumulating in the presence of ddTTP may be generated by strand displacement.
...
PMID:Two different mechanisms are involved for the bleomycin-induced DNA repair synthesis in permeabilized HeLa cells. 248 Jan 15
A 120-kDa protein that blocks DNA termini has been purified from extracts of HeLa cells. This protein inhibits the action of a number of enzymes that catalyze reactions involving the 5' and 3' ends of DNA (
DNA ligase
, 3' and 5' exonucleases, and
DNA polymerase alpha
). The 120-kDa protein blocks the synthesis of long DNA chains that are normally formed during simian virus 40 DNA replication, causing the accumulation of small DNA fragments. The effects of this protein can be reversed by the addition of proliferating cell nuclear antigen and other protein fractions (activators).
...
PMID:Studies on the DNA elongation inhibitor and its proliferating cell nuclear antigen-dependent control in simian virus 40 DNA replication in vitro. 256 92
The main biochemical determinants involved in cytosine arabinoside (Ara-C) metabolism were studied in one lymphoblastic (Reh) and two myeloid (HL60 and K562) human leukemic cell lines exhibiting various sensitivities to Ara-C, Reh being the most and HL60 the least sensitive. The level of intracellular Ara-C accumulation and Ara-CTP formation was far more important in Reh cells than in myeloid cell lines but was not closely related to deoxycytidine kinase activity or to deoxycytidine triphosphate pool size. The level of Ara-C incorporated into DNA was similar in the three cell lines. Ara-CTP formation correlated better with the cytotoxicity to clonogenic cells than did Ara-C incorporation into DNA.
DNA polymerase alpha
was moderately inhibited to various degrees, depending on the cell line; this moderate inhibition does not seem sufficient to explain the inhibition of DNA synthesis. The activity of
DNA ligase
, the enzyme joining the Okazaki fragments, which was not detected in Reh cells, was strongly inhibited by Ara-C in HL60 and to a lesser degree, in K562 cells. The inhibition of
DNA ligase
probably also contributes to the inhibition of DNA synthesis and, thus, to the cytotoxic effect of Ara-C and may explain the smaller size of DNA fragments observed following Ara-C treatment. The variations in each critical determinant observed in these three cell lines increase the complexity and plurality of the mechanisms of Ara-C action.
...
PMID:A study of the mechanisms of cytotoxicity of Ara-C on three human leukemic cell lines. 275 6
The replication of simian virus 40 origin-containing DNA has been reconstituted in vitro with SV40 large T antigen and purified proteins isolated from HeLa cells. Covalently closed circular DNA (RF I') daughter molecules are formed in the presence of T antigen, a single-stranded DNA binding protein and
DNA polymerase alpha
-primase complex, together with ribonuclease H,
DNA ligase
, topoisomerase II, and a double-stranded specific exonuclease that has been purified to homogeneity. The 44-kDa exonuclease-digested oligo(rA) annealed to poly(dT) in the 5'----3' direction.
DNA ligase
and the 5'----3' exonuclease were essential for RF I' formation. Covalently closed circular duplex DNA and full length linear single-stranded DNA were detected by alkaline gel electrophoresis as products of the complete system. DNA replication in the absence of either
DNA ligase
or the 5'----3' exonuclease yielded DNA products that were half length (approximately 1500 nucleotides) and smaller Okazaki-like fragments (approximately 200 nucleotides). Hybridization experiments showed that the longer chains were synthesized from the leading strand template, while the small products were synthesized from the lagging strand template. These results suggest that the RNA primers attached to 5' ends of replicated DNA are completely removed by the 5'----3' exonuclease, with the assistance of RNase H.
...
PMID:Complete enzymatic synthesis of DNA containing the SV40 origin of replication. 284 39
A number of enzymes thought to be involved in DNA replication have been identified in the brain. These include single-stranded DNA-binding proteins, topoisomerases I and II,
DNA polymerase alpha
, a protein that binds Ap4A and might be classified as a
DNA polymerase alpha
accessory protein, RNase H, DNA polymerase beta,
DNA ligase
, an endo- and an exonuclease of unknown function, DNA methyl transferase and poly(ADPR) synthase. In contrast, little is known about the enzymology of DNA repair in brain. The few enzymes identified comprise uracil-DNA glycosylase, DNA polymerase beta,
DNA polymerase alpha
(which in neurons is present only at immature stages),
DNA ligase
, poly(ADPR) synthase, and O6-alkylguanine-DNA alkyltransferase. In addition, an exonuclease acting on depurinated single-stranded DNA (tentatively listed here as 3'----5' exonuclease), an endonuclease of unknown function as well as ill-defined acid and alkaline deoxyribonucleases also occur in brain.
...
PMID:Enzymology of DNA replication and repair in the brain. 300 64
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
Since interferon inducible 2',5'-oligoadenylate (2,5An) synthetase activity is present in a wide variety of cells and is affected by various hormonal conditions, primary human mammary tumor extracts were examined for the constitutive presence of this enzyme and its possible relationship with the various hormonal receptor levels in these tissues. Further, since 2,5An synthetase has been implicated as a possible factor controlling cell replication, we assayed DNA polymerases in these same tumor extracts to determine any correlation between 2,5An synthetase activity and growth potential. A survey of the soluble extracts from 24 different surgically removed human mammary tumor specimens for 2,5An synthetase activity indicated that this enzyme was indeed present in all extracts but in widely varying amounts of activity (31-2,666 nmol adenosine 5'-phosphate incorporated/mg protein). The 2,5An synthesized in the enzymic reactions ranged in size from di- to hexamers, with trimers being the abundant 2,5An in the majority of tumors. A comparison of the assay results for estrogen and progestin receptors with 2,5An synthesis indicated that high 2,5An synthetase activity was found in both estrogen or progestin positive and negative tumors. Thus, 2,5An synthetase activity was unrelated (r = 0.329 and 0.077, respectively, for estrogen and progestin receptors) to the hormonal receptor content of these tumors. A similar comparison was made between 2,5An synthesis and assay results for the activities of
DNA polymerase alpha
, regarded as the principal DNA replicating enzyme, and DNA polymerase beta, regarded as the
DNA repair enzyme
. Although the activity of the polymerases were also quite varied, the majority of tumor extracts demonstrated higher alpha polymerase activity with no parallel difference between the alpha and beta enzymes. There was, however, a weak correlation (r = 0.751) between 2,5An synthetase activity and
DNA polymerase alpha
activity among the tumors examined. Less of a correlation existed with DNA polymerase beta activity (r = 0.600). These results suggested that the potential of the tumors to synthesize 2,5An was unrelated to their hormonal responsiveness and only weakly related to their growth potential reflected by
DNA polymerase alpha
activity.
...
PMID:2',5'-oligoadenylate synthetase activity in human mammary tumors and its potential correlation with tumor growth or hormonal responsiveness. 377 41
Incubation of
DNA polymerase alpha
, DNA polymerase beta, terminal deoxynucleotidyl transferase, or
DNA ligase
II in a reconstituted poly(ADP-ribosyl)ating enzyme system markedly suppressed the activity of these enzymes. Components required for poly(ADP-ribose) synthesis including poly(ADP-ribose) polymerase, NAD+, DNA, and Mg2+ were all essential for the observed suppression. Purified poly(ADP-ribose) itself, however, was slightly inhibitory to all of these enzymes. Furthermore, the suppressed activities of
DNA polymerase alpha
, DNA polymerase beta, and terminal deoxynucleotidyl transferase were largely restored (3 to 4-fold stimulation was observed) by a mild alkaline treatment, a procedure known to hydrolyze alkaline-labile ester linkage between poly(ADP-ribose) and an acceptor protein. All of these results strongly suggest that the four nuclear enzymes were inhibited as a result of poly(ADP-ribosyl)ation of either the enzyme molecule itself or some regulatory proteins of these enzymes.
...
PMID:Inhibition of DNA polymerase alpha, DNA polymerase beta, terminal deoxynucleotidyl transferase, and DNA ligase II by poly(ADP-ribosyl)ation reaction in vitro. 392 Oct 27
Excision repair of u.v. damage in human fibroblasts is more sensitive to inhibitors of
DNA polymerase alpha
(cytosine arabinoside, aphidicolin) than to an inhibitor of polymerase beta (dideoxythymidine), which indicates a greater role in repair for polymerase alpha than for polymerase beta. These inhibitors all generate shortened patches with free 3' termini; the detailed structure of these patches was investigated in permeable cells or isolated nuclei by degradation of DNA with exonuclease III and by resynthesis with DNA polymerase I (Klenow fragment) and T4
DNA ligase
. The structure of the shortened patches appears to be a short stretch of DNA synthesized in the 5'----3' direction within a longer single-strand gap. The single-strand gap ahead of the 3' terminus can be bridged only by the combined action of polymerase and ligase. This structure implies that excision must involve removal of an oligonucleotide or widening of a gap by 5'----3' exonuclease action to produce a single-strand region wide enough to be a substrate for polymerase alpha. There is no evidence for structures generated by nick translation or strand displacement.
...
PMID:Completion of excision repair patches in human cell preparations: identification of a probable mode of excision and resynthesis. 642 5
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