EC:6.5.1.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Two DNA repair enzyme activities, uracil DNA glycosylase and AP endonuclease, were measured in extracts of T- and B-lymphocytes isolated from mice ranging in age from 3 to 24 months. T- and B-lymphocytes had roughly equal levels of AP endonuclease which did not change appreciably with age. T-lymphocytes had roughly twice as high a level of uracil DNA glycosylase as B-lymphocytes; these levels were not affected by age either. This constancy with age contrasts dramatically with increases in both enzymes--roughly 3-fold on a protein basis or 50-fold on a per cell basis--in a transformed line (MPC-11) derived from a carcinogen-induced lymphocytoma. These results are similar to those obtained with cultured murine fibroblasts, wherein a relative constancy was noted with passage of non-transformed cells, followed by dramatic changes upon transformation (La Belle, M & Linn, S, Mutat res 132 (1984) 51). Hence these enzyme assays do not support the notion of a drop in base excision DNA repair capacity as being a causative factor in aging, but suggest instead that DNA repair properties might differ dramatically in transformed vs non-transformed cells.
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PMID:Levels of uracil DNA glycosylase and AP endonuclease in murine B- and T-lymphocytes do not change with age. 242 Jun 22

The capacity of eukaryotic cells to modulate the activities of DNA repair enzymes during cell proliferation was examined. Using regenerating rat liver as a model system, the specific activities of the DNA repair enzymes uracil DNA glycosylase and 3-methyladenine DNA glycosylase were determined at specific intervals after partial hepatectomy. The induction of DNA replication and the stimulation of DNA polymerase were also measured in order to relate changes in the potential for DNA repair to those observed for DNA replication. As measured in nuclear extracts, the specific activities of both the uracil DNA glycosylase and the 3-methyladenine DNA glycosylase were increased in regenerating rat liver reaching maximal levels 18--24 h after partial hepatectomy. The specific activity of each DNA repair enzyme returned to basal levels by 48 h after the hepatectomy. No increase in either enzyme activity was observed in sham operated controls. The products of the reactions were identified as 3-methyladenine or as uracil by high pressure liquid chromatography or by gel filtration on Sephadex G-10. The 2--3 fold increases in the specific activity observed for each nuclear DNA repair enzyme was comparable to the 2.7 fold increase observed for DNA polymerase activity. The stimulation of DNA repair enzymes in regenerating rat liver is a further suggestion that eukaryotic cells actively regulate excision repair pathways in the defined pattern of gene expression observed during the eukaryotic cell cycle.
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PMID:Induction of the DNA repair enzymes uracil DNA glycosylase and 3-methyladenine DNA glycosylase in regenerating rat liver. 727 38

Recent evidence indicates that 5-fluorouracil (5-FlUra) is incorporated into DNA and is removed by the DNA repair enzyme uracil DNA glycosylase. Synthetic oligonucleotides containing either a single uracil or 5-FlUra residue were constructed to examine the mechanisms by which human cells remove 5-FlUra from DNA. The human uracil DNA glycosylase excised uracil in a manner similar to that observed for the bacterial enzyme. In contrast, a significant difference was observed in their abilities to remove 5-FlUra. In particular, both the bacterial and normal human enzymes displayed 13-17-fold increases in their apparent Km values but the apparent Vmax values remained virtually constant. These results demonstrate that normal human cells possess a defined capacity to remove 5-FlUra incorporated into DNA. However, specific kinetic differences may exist that affect their capacity to remove 5-FlUra formed in DNA after treatment with this cancer chemotherapeutic agent.
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PMID:Mechanisms of excision of 5-fluorouracil by uracil DNA glycosylase in normal human cells. 831 18

The role of the accessory gene product Vpr during human immunodeficiency virus type 1 infection remains unclear. We have used the yeast two-hybrid system to identify cellular proteins that interact with Vpr and could be involved in its function. A cDNA clone which encodes the human uracil DNA glycosylase (UNG), a DNA repair enzyme involved in removal of uracil in DNA, has been isolated. Interaction between Vpr and UNG has been demonstrated by in vitro protein-protein binding assays using translated, radiolabeled Vpr and UNG recombinant proteins expressed as a glutathione S-transferase fusion protein. Conversely, purified UNG has been demonstrated to interact with Vpr recombinant protein expressed as a glutathione S-transferase fusion protein. Coimmunoprecipitation experiments confirmed that Vpr and UNG are associated within cells expressing Vpr. By using a panel of C- and N-terminally deleted Vpr mutants, we have determined that the core protein of Vpr, spanning amino acids 15 to 77, is involved in the interaction with UNG. We also demonstrate by in vitro experiments that the enzymatic activity of UNG is retained upon interaction with Vpr.
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PMID:Human immunodeficiency virus type 1 Vpr protein binds to the uracil DNA glycosylase DNA repair enzyme. 855 5

Human cytomegalovirus (CMV) encodes a gene, UL114, whose product is homologous to the uracil DNA glycosylase and is highly conserved in all herpesviruses. This DNA repair enzyme excises uracil residues in DNA that result from the misincorporation of dUTP or spontaneous deamination of cytosine. We constructed a recombinant virus, RC2620, that contains a large deletion in the UL114 open reading frame and carries a 1.2-kb insert containing the Escherichia coli gpt gene. RC2620 retains the capacity to replicate in primary human fibroblasts and reaches titers that are similar to those produced by the parent virus but exhibits a significantly longer replication cycle. Although the rate of expression of alpha and beta gene products appears to be unaffected by the mutation, DNA synthesis fails to proceed normally. Once initiated, DNA synthesis in mutant virus-infected cells proceeds at the same rate as with wild-type virus, but initiation is delayed by 48 h. The mutant virus also exhibits two predicted phenotypes: (i) hypersensitivity to the nucleoside analog 5-bromodeoxyuridine and (ii) retention of more uracil residues in genomic DNA than the parental virus. Together, these data suggest UL114 is required for the proper excision of uracil residues from viral DNA but in addition plays some role in establishing the correct temporal progression of DNA synthesis and viral replication. Although such involvement has not been previously observed in herpesviruses, a requirement for uracil DNA glycosylase in DNA replication has been observed in poxviruses.
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PMID:Human cytomegalovirus uracil DNA glycosylase is required for the normal temporal regulation of both DNA synthesis and viral replication. 862 78

The purpose of this review is to summarize information published since 1990 on DNA replication, recombination and repair of vaccinia virus, a poxvirus. Temperature-sensitive mutations reveal four essential genes related to viral DNA replication: the E9L DNA polymerase, B1R protein kinase, D5R protein, and D4R uracil DNA glycosylase. Other proteins are likely to be also involved in viral DNA replication: the H6R DNA topoisomerase, I3L single stranded-DNA binding protein, H5R virosome-associated protein, and A50R DNA ligase. In addition, several viral-encoded proteins do regulate the level of the deoxyribonucleoside triphosphate pool: the J2R thymidine kinase, A48R thymidylate kinase, 14L and F4L subunits of ribonucleotide reductase, and F2L dUTPase. Despite the apparent simplicity of the mechanism of vaccinia virus DNA replication, several important questions related to the three Rs remain unsolved.
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PMID:Vaccinia virus DNA replication: a short review. 882 74

The vaccinia virus D4R open reading frame, encoding the essential DNA repair enzyme uracil DNA glycosylase, was expressed in two permanent cell lines, the rabbit kidney cell line RK13 and the human fibroblast cell line 293. The temperature-sensitive vaccinia virus mutant ts4149, which maps within D4R, was able to grow under restrictive conditions in both of these transformed cell lines. Cell clones complemented D4R function to various degrees, demonstrating complementation of an essential vaccinia virus gene by a cell line constitutively expressing the essential function. Thus, the complementing host cells allowed the rescue of a virus defective in the D4R gene, demonstrating that this system may be used for the propagation of defective cytoplasmic DNA viruses. The defective virus grew to high yields only in the engineered cell lines. The data support the hypothesis that early gene products, such as uracil DNA glycosylase, supplied in trans can fully complement essential viral functions.
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PMID:Construction of a vaccinia virus deficient in the essential DNA repair enzyme uracil DNA glycosylase by a complementing cell line. 918 64

Poor folate status may be important in the aetiology of several epithelial cell malignancies including cancer of the uterine cervix. Folic acid is essential in the synthesis of purine nucleotides and the pyrimidine nucleoside thymidine and it is probable that imbalances in these DNA precursors negatively effect DNA stability and may ultimately lead to malignant transformation. The development of a modified 'comet assay' using the bacterial DNA repair enzyme uracil DNA glycosylase, to detect misincorporated uracil in human DNA is reported here. The effect of perturbing folic acid and deoxyuridine levels on uracil misincorporation in normal human lymphocytes and cultured human tumour cells was investigated using this assay. HeLa cells and peripheral human lymphocytes incubated as agarose-embedded nucleoids, with 1 unit of uracil DNA glycosylase per microg of DNA, contained low levels of uracil in their DNA. Both HeLa cells and stimulated human lymphocytes cultured in folate-deficient medium were growth arrested. Incubating human lymphocytes in folate-deficient medium significantly increased the level of uracil detected compared with control cells. HeLa cells showed an increase in non-specific DNA damage (strand breaks). Deoxyuridine (100 microM) significantly increased the level of uracil detected in the DNA of both folate-deficient and control HeLa cells. It appears that this modified comet assay specifically detects misincorporated uracil in single human cells. It should, therefore, prove valuable in determining the role of folic acid status in DNA instability and cancer.
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PMID:Uracil misincorporation in human DNA detected using single cell gel electrophoresis. 932 65

The HIV-1 Vpr protein is a virion-associated protein which has been shown to facilitate infection of nondividing macrophages and additionally to alter cell cycle and proliferation status of the infected host cell. HIV-1 Vpr also was recently shown to associate with the DNA repair enzyme uracil DNA glycosylase (UDG). This association with a DNA repair enzyme is intriguing given that nonprimate lentiviruses encode a dUTPase, which, like UDG, minimizes the misincorporation of uracil into DNA and is important for virus replication in primary nondividing macrophages but not in dividing cells. This raises the possibility that the dependence upon Vpr for infection of nondividing macrophages may relate to its ability to interact with UDG. Members of the HIV-2/SIVSM group encode, in addition to Vpr, a related protein called Vpx. We previously demonstrated (Fletcher et al., 1996) that Vpx of HIV-2/SIVSM is necessary and sufficient for infection of primary macaque macrophages, while Vpr is not required for macrophage infection but governs cell cycle arrest. Here, we extend on these observations by demonstrating that Vpr, but not Vpx of HIV-2/SIVSM, associates with UDG, which suggests that Vpx facilitates infection of macrophages by a UDG-independent mechanism.
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PMID:Differential association of uracil DNA glycosylase with SIVSM Vpr and Vpx proteins. 963 73

Folic acid is essential for the synthesis and repair of DNA. We report the effects of folate depletion on DNA stability in normal human lymphocytes in vitro. DNA strand breakage, uracil misincorporation, oxidative DNA base damage, and DNA repair capability were determined using variants of the comet assay (single cell gel electrophoresis). Lymphocyte proliferation was measured as an indicator of normal replication. Lymphocytes isolated from human venous blood were stimulated to grow in either complete medium containing folic acid (1 ng/ml-2 microgram/ml) or medium deficient in folic acid for up to 10 days. Cells prepared for comet analysis were treated either with the bacterial DNA repair enzyme endonuclease III to determine the level of oxidized pyrimidines in lymphocyte DNA or with uracil DNA glycosylase, which detects misincorporated uracil. Cell number and viability were measured. Normal human lymphocyte DNA contained detectable amounts of misincorporated uracil (estimated as approximately 1000 per cell). DNA strand breakage and uracil misincorporation increased in a time- and concentration-dependent manner after lymphocytes were cultured with decreasing amounts of folic acid. DNA damage was induced at folic acid concentrations routinely observed in plasma from the human population (1-10 ng/ml). Lymphocytes cultured under folate-deficient conditions failed to grow normally compared with control cells. However, all lymphocytes remained viable as measured by Trypan blue exclusion. Cells deprived of folate were unable to efficiently repair oxidative DNA damage induced by hydrogen peroxide. Inhibition of repair was maximal after 8 days in culture. Folate supply had no effect on the level of oxidized pyrimidines in lymphocyte DNA, even after 10 days in culture, suggesting that folate deficiency increases uracil misincorporation relatively specifically. These in vitro results help to determine the mechanism(s) through which folic acid maintains DNA stability.
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PMID:DNA instability (strand breakage, uracil misincorporation, and defective repair) is increased by folic acid depletion in human lymphocytes in vitro. 980 58

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