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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)

E. coli RuvC protein resolves Holliday junctions during genetic recombination and postreplication repair. Using small synthetic junctions, we show that junction recognition is structure-specific and occurs in the absence of metal cofactors. In the presence of Mg2+, Holliday junctions are resolved by the introduction of symmetrically related nicks at the 3' side of thymine residues. The nicked duplex products are repaired by the action of DNA ligase. Within the RuvC-Holliday junction complex, the DNA is distorted such that 2 of the 4 strands become hypersensitive to hydroxyl radical attack. The ionic requirements of binding, hydroxyl radical sensitivity, and strand cleavage indicate three distinct steps in the mechanism of RuvC-mediated Holliday junction resolution: structure-specific recognition, DNA distortion, and sequence-dependent cleavage.
Cell 1993 Sep 24
PMID:Resolution of Holliday junctions by RuvC resolvase: cleavage specificity and DNA distortion. 840 79

Steroid 21-hydroxylase deficiency is the most common cause of congenital adrenal hyperplasia, an inherited inability to synthesize cortisol that occurs in 1 in 10,000-15,000 births. Affected females are born with ambiguous genitalia, a condition that can be ameliorated by administering dexamethasone to the mother for most of gestation. Prenatal diagnosis is required for accurate treatment of affected females as well as for genetic counseling purposes. Approximately 95% of mutations causing this disorder result from recombinations between the gene encoding the 21-hydroxylase enzyme (CYP21) and a linked, highly homologous pseudogene (CYP21P). Approximately 20% of these mutations are gene deletions, and the remainder are gene conversions that transfer any of nine deleterious mutations from the CYP21P pseudogene to CYP21. We describe a methodology for genetic diagnosis of 21-hydroxylase deficiency that utilizes gene-specific PCR amplification in conjunction with thermostable DNA ligase to discriminate single nucleotide variations in a multiplexed ligation detection assay. The assay has been designed to be used with either fluorescent or radioactive detection of ligation products by electrophoresis on denaturing acrylamide gels and is readily adaptable for use in other disease systems.
Genomics 1995 Sep 01
PMID:Detection of steroid 21-hydroxylase alleles using gene-specific PCR and a multiplexed ligation detection reaction. 853 65

The possible modulation by T4 DNA ligase of the DNA double-strand breaks produced by restriction endonucleases in living mammalian cells was studied. A clear decrease in the frequency of chromosomal aberrations was observed when T4 DNA ligase was included in the electroporation treatment along with restriction enzymes inducing either cohesive- or blunt-ends in DNA. The relative proportions of exchange-type aberrations were similar for both kinds of treatments (with and without ligase), which seems to suggest an error-free ligation by T4 DNA ligase.
Mutagenesis 1995 Sep
PMID:T4 DNA ligase modulates chromosome damage induced by restriction endonucleases through an error-free process. 854 52

3T3-L1 preadipocytes have been shown to exhibit a transient increase in poly(ADP-ribose) polymerase (PARP) protein and activity, as well as an association of PARP with DNA polymerase alpha, within 12-24 h of exposure to inducers of differentiation, whereas 3T3-L1 cells expressing PARP antisense RNA showed no increase in PARP and are unable to complete the round of DNA replication required for differentiation into adipocytes. The role of PARP in differentiation-linked DNA replication has now been further clarified at both the cellular and enzymological levels. Flow cytometric analysis revealed that control 3T3-L1 cells progressed through one round of DNA replication prior to the onset of terminal differentiation, whereas cells expressing PARP antisense RNA were blocked at the G0/G1 phase of the cell cycle. Confocal microscope image analysis of control S phase cells demonstrated that PARP was localized within distinct intranuclear granular foci associated with DNA replication centers. On the basis of these results, purified replicative complexes from other cell types that had been characterized for their ability to catalyze viral DNA replication in vitro were analyzed for the presence of PARP. PARP exclusively copurified through a series of centrifugation and chromatography steps with core proteins of an 18-21S multiprotein replication complex (MRC) from human HeLa cells, as well as with the corresponding mouse MRC from FM3A cells. The MRC were shown to contain DNA polymerases alpha and delta, DNA primase, DNA helicase, DNA ligase, and topoisomerases I and II, as well as accessory proteins such as PCNA, RF-C, and RP-A. Finally, immunoblot analysis of MRCs from both cell types with monoclonal antibodies to poly (ADP-ribose) revealed the presence of approximately 15 poly(ADP-ribosyl)ated proteins, some of which were further confirmed to be DNA polymerase alpha, DNA topoisomerase I, and PCNA by immunoprecipitation experiments. These results suggest that PARP may play a regulatory role within the replicative apparatus as a molecular nick sensor controlling the progression of the replication fork or modulates component replicative enzymes or factors in the complex by directly associating with them or by catalyzing their poly(ADP-ribosyl)ation.
Biochemistry 1996 Sep 10
PMID:The expression of poly(ADP-ribose) polymerase during differentiation-linked DNA replication reveals that it is a component of the multiprotein DNA replication complex. 879 42

We have studied the effect on DNA topology of binding of prokaryotic DNA ligases (T4 and E. coli) to superhelical or nicked circular DNA. Performing topoisomerase I-mediated relaxation in the presence of increasing amounts of T4 ligase led to a shift in the topoisomer distribution to increasingly more negative values. This result suggested that T4 ligase unwound the DNA and was further substantiated by ligation of nicked circular molecules by E. coli DNA ligase in the presence of increasing amounts of T4 ligase. Such an experiment was possible since the two DNA ligases require different cofactors for enzymatic activity. Performing a similar experiment with reverse partners, using E. coli DNA ligase as ligand, and T4 ligase as sealing agent, we observed that the E. coli enzyme also unwound the DNA. Thus, prokaryotic DNA ligases can be added to an ever-growing list of DNA-binding proteins that unwind the DNA upon binding.
Biochem Biophys Res Commun 1996 Sep 13
PMID:Prokaryotic DNA ligases unwind superhelical DNA. 880 63

An efficient cDNA amplification procedure is described for determining of the 5' and 3' ends of mRNAs and cloning full-length cDNAs. In this approach, a double-stranded (ds) adaptor is ligated to both ends of a library of ds cDNA by T4 DNA ligase. This adaptor-ligated ds cDNA is then used to selectively amplify 5'- or 3'-cDNA fragments by PCR with a combination of gene-specific and adaptor-specific primers. This is a unified method for 5' and 3' rapid amplification of cDNA ends (RACE) from the same adaptor-ligated ds cDNA template. A specially designed adaptor combines features of "vectorette PCR" and "suppression PCR" technologies that significantly reduce background during amplification. The application of "long and accurate PCR" (LA PCR) technology makes possible the amplification of large RACE products and full-length cDNAs with high fidelity to the original mRNA. We investigated efficacy and limitations of this PCR-based approach for cDNA cloning by amplification of 5'- and 3'-RACE fragments and full-length cDNAs of three members of the abundant human actin gene family (1.3-1.9 kb), the medium abundance transferrin receptor mRNA (5.0 kb) and the low-medium abundance insulin-like growth factor II receptor mRNA (9.1 kb).
Biotechniques 1996 Sep
PMID:Full-length cDNA cloning and determination of mRNA 5' and 3' ends by amplification of adaptor-ligated cDNA. 887 95

The requirement for Watson-Crick base pairing surrounding a nick in duplex DNA to be sealed by DNA ligase is the basis for oligonucleotide ligation assays that distinguish single base mutations in DNA targets. Experiments in a model system demonstrate that the minimum length of oligonucleotide that can be joined differs for different ligases. Thermus thermophilus (Tth) DNA ligase is unable to join any oligonucleotide of length six or less, while T4 DNA ligase and T7 DNA ligase are both able to join hexamers. The rate of oligonucleotide ligation by Tth DNA ligase increases between heptamer and nonamer. Mismatches which cause the duplex to be shortened by fraying, at the end distal to the join, slow the ligation reaction. In the case of Tth DNA ligase, mismatches at the seventh and eighth position 5'to the nick completely inhibit the ligation of octamers. The results are relevant to mechanisms of ligation.
Nucleic Acids Res 1997 Sep 01
PMID:Effects of base mismatches on joining of short oligodeoxynucleotides by DNA ligases. 925 95

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.
Carcinogenesis 1997 Sep
PMID:Uracil misincorporation in human DNA detected using single cell gel electrophoresis. 932 65

Coxsackievirus B3 (CVB3), an enterovirus in the family Picornaviridae, induces cytopathic changes in cell culture systems and directly injures multiple susceptible organs and tissues in vivo, including the myocardium, early after infection. Biochemical analysis of the cell death pathway in CVB3-infected HeLa cells demonstrated that the 32-kDa proform of caspase 3 is cleaved subsequent to the degenerative morphological changes seen in infected HeLa cells. Caspase activation assays confirm that the cleaved caspase 3 is proteolytically active. The caspase 3 substrates poly(ADP-ribose) polymerase, a DNA repair enzyme, and DNA fragmentation factor, a cytoplasmic inhibitor of an endonuclease responsible for DNA fragmentation, were degraded at 9 h following infection, yielding their characteristic cleavage fragments. Inhibition of caspase activation by benzyloxycarbonyl-Val-Ala-Asp-fluoromethylketone (ZVAD.fmk) did not inhibit the virus-induced cytopathic effect, while inhibition of caspase activation by ZVAD.fmk in control apoptotic cells induced by treatment with the porphyrin photosensitizer benzoporphyrin derivative monoacid ring A and visible light inhibited the apoptotic phenotype. Caspase activation and cleavage of substrates may not be responsible for the characteristic cytopathic effect produced by picornavirus infection yet may be related to late-stage alterations of cellular homeostatic processes and structural integrity.
J Virol 1998 Sep
PMID:Caspase activation and specific cleavage of substrates after coxsackievirus B3-induced cytopathic effect in HeLa cells. 969 73

Complete libraries of oligonucleotides were used as substrates for Thermus thermophilus DNA ligase, on a M13mp18 ssDNA template. A 17mer primer was used to start a polymerisation process. Ladders of ligation products were analysed by gel electrophoresis. Octa-, nona- and decanucleotide libraries were compared. Nonanucleotides were optimum for polymerisation and up to 15 monomers were ligated. The fidelity of incorporation was studied by sequencing 28 clones (2268 bases) of nonanucleotide polymers, 12 monomers in length. Of the ligated monomers, 79% were the correct complementary sequence. In a total of 57 (2.5%) mispaired bases, there was a strong bias to G.T, G.A, G.G and A.G mismatches. Of the mismatches, 86% were found to be purines on the incoming oligonucleotide, of which 71% were G. There is evidence for clustering of mismatches within specific 9mers and at specific positions within these 9mers. The most frequent mismatches were at the 5'-terminus of the oligonucleotide, followed by the central position. We suggest that sequence selection was imposed by the ligase and not just by base pairing interactions. The ligase directs polymerisation in the 3' to 5' direction which we propose is linked to its role in lagging strand DNA replication.
Nucleic Acids Res 1998 Sep 15
PMID:Fidelity of DNA ligation: a novel experimental approach based on the polymerisation of libraries of oligonucleotides. 972 47


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