EC:2.1.1.37 - FACTA Search

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Query: EC:2.1.1.37 (DNA methyltransferase)
4,983 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oligodeoxyribonucleotides which form a number of duplexes, containing the recognition sequences for endonuclease BamHI and DNA methylase Eco dam, were synthesised by the phosphotriester approach. Furthermore, synthesis of 3'-phosphorylated oligodeoxyribonucleotides from corresponding S-methyl phosphorothioate triester oligomers is described. The synthetic duplexes are characterized by some defects in the recognition sequences for endonuclease BamHI and methylase Eco dam, viz. nick, absence of an internucleotide phosphate, modifications (including partial single-strandedness) of the recognition site. Interaction of the enzymes with these synthetic substrates was investigated.
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PMID:[Chemical synthesis and properties of oligonucleotide substrates for restriction endonuclease BamHI and methyltransferase Eco dam]. 283 58

The structural gene (dpnM) for the Dpn II DNA methylase of Streptococcus pneumoniae, which is part of the Dpn II restriction system and methylates adenine in the sequence 5'-G-A-T-C-3', was identified by subcloning fragments of a chromosomal segment from a Dpn II-producing strain in an S. pneumoniae host/vector cloning system and demonstrating function of the gene also in Bacillus subtilis. Determination of the nucleotide sequence of the gene and adjacent DNA indicates that it encodes a polypeptide of 32,903 daltons. A putative promoter for transcription of the gene lies within a hundred nucleotides of the polypeptide start codon. Comparison of the coding sequence to that of the dam gene of Escherichia coli, which encodes a similar methylase, revealed 30% of the amino acid residues in the two enzymes to be identical. This homology presumably reflects a common origin of the two genes prior to the divergence of Gram-positive and Gram-negative bacteria. It is suggested that the restriction function of the gene is primitive, and that the homologous restriction system in E. coli has evolved to play an accessory role in heteroduplex DNA base mismatch repair.
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PMID:Nucleotide sequence of the Dpn II DNA methylase gene of Streptococcus pneumoniae and its relationship to the dam gene of Escherichia coli. 298 23

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.
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PMID:Pre-replicative association of multiple replicative enzyme activities with the nuclear matrix during rat liver regeneration. 302 82

E. coli hsd genes were subcloned from lambda 642 (ral+) into lambda L47.1 vector (ral-after replacement). The influence of bacteriophage lambda ral gene on the expression efficiency of hsdS kappa, hsdM kappa genes was investigated. It was shown, that its presence in vitro enhanced the synthesis of beta-subunit, hsdM gene product, and the increase of modification in vivo was observed. It is proposed that the increase of modification rate of lambda phage fully unmodified DNA is connected with the appearance of E. coli DNA methylase consisting of beta- and gamma-subunits but lacking alpha-subunit.
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PMID:[The effect of the phage lambda ral gene on the level of synthesis of the EcoK restriction endonuclease beta-subunit]. 302 37

Parameters defining the topological state of DNA seem extremely important for describing the reactive state of the same DNA molecules. We have shown that physical and chemical DNA modifying agents alter the tertiary structure of DNA molecules. Variations in the tertiary structure of DNA were studied by one dimensional electrophoresis on an agarose gel of partially relaxed plasmid DNA topoisomers, a technique allowing the measurement of alterations in the degree of supercoiling equivalent to fractions of superhelical turns. Unwinding angles of -10.1 degrees or -8.7 degrees per pyrimidine or thymine dimer respectively, of -12 degrees per apurinic site, and of -3.4 degrees per methylated purine were obtained by titrating the number of damaged sites necessary to reduce the number of superhelical turns by one in each topoisomer. On the contrary, enzymatic methylation of the C-5 position of cytosine (a modified base present in prokaryotic and eukaryotic DNAs) did not alter the DNA tertiary structure. We have also shown that local alterations in DNA structure caused by UV-irradiation inhibit bacterial DNA topoisomerase I and DNA methylase, and that the topological state of DNA substrate influences the mode of methylation of Hpa II DNA methylase. These findings suggest that the natural topological state of DNA substrate (linear, relaxed, or covalently closed duplex DNA with varying degrees of supercoiling) influences the mode of action of enzymes possibly involved in DNA repair processes, while DNA structural alterations caused by DNA modifying agents might influence DNA repair processes in two ways: either by driving the interaction between repair enzymes and the modified sites of DNA, or by inhibiting or changing the mode of action of enzymes normally acting on unmodified DNA.
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PMID:Alteration of DNA tertiary structure by physical and chemical carcinogens: involvement in DNA repair processes. 303 9

We have purified the EcoR124 and EcoR124/3 restriction enzymes and shown that they are type I enzymes by several criteria: subunit composition, DNA and S-adenosylmethionine-dependent ATPase activity, and site-specific DNA methylase activity. By immunochemical criteria these enzymes are related to each other but are unrelated to the two previously investigated families of type I restriction enzymes. They form therefore a new family which we call type IC. The arrangement of the structural genes coding for these enzymes and their transcriptional organisation have been determined. These are different from the common arrangement found for the other two families of type I enzymes.
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PMID:EcoR124 and EcoR124/3: the first members of a new family of type I restriction and modification systems. 304 Mar 96

Enzymatic methylation of mammalian DNA is closely related to the replication process; also, the synthesis of DNA methylase, an enzyme that is responsible for this process, is cell cycle related. A monoclonal antibody against DNA methylase recognizes proliferatively active cells in the heterogeneous population. We used this antibody to identify the proliferative state of different cell types in normal vaginal smears and in smears of patients with precancerous lesions and cervical cancer. In all preparations, the normal epithelial cells remained unstained. The majority of cancer cells gave a positive immunocytochemical signal indicating the presence of DNA methylase antigen and the proliferative state. Staining was also observed in dyskaryotic cells, particularly in nuclei of parabasal-type cells.
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PMID:Immunocytochemical staining of different cell types in vaginal smears by monoclonal anti-DNA methylase antibodies. 307 7

DNA-methyltransferase activity has been detected in some of Bacillus subtilis and Bacillus natto strains. Two strains of Bacillus subtilis exhibited DNA-cytosine methyltransferase activity, and the strains of Bacillus natto exhibited DNA-adenine methyltransferase activity. A possible effect of DNA-methyltransferase specificity on transformation efficiency is discussed.
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PMID:[DNA-methylases from different strains of Bacillus subtilis and Bacillus natto]. 310 53

Previous studies have shown that 1-beta-D-arabinofuranosylcytosine (ara-C) can induce differentiation of various malignant cells and that DNA methylation patterns become altered under ara-C treatment of those cells. The aim of this study was to investigate whether this influence on DNA methylation is caused by a direct effect of DNA-incorporated ara-C molecules on nuclear DNA methylase. For this reason, we constructed various ara-C-substituted DNA polymers and used them as substrates for highly purified eukaryotic DNA methylase isolated from murine P815 mastocytoma cells. The ara-C incorporation into DNA polymers was measured by either an ara-C-specific radioimmunoassay or by use of radioactive-labelled ara-C during the synthesis of those polymers. We found an inverse correlation between the level of ara-C substitution of the DNA polymers and their methyl group acceptance. Kinetic experiments performed with ara-C-modified DNA polymers pointed out that the mode of action of DNA methylase remains unaltered. DNA methylase is neither detached nor fixed at an ara-C site, but is somehow hindered in its enzymatic activity, probably by slowing down the walking mechanism. Hence, the previously observed hypermethylation of DNA of some eukaryotic cells, propagated in the presence of ara-C, is apparently not due to a direct effect of DNA-incorporated ara-C molecules on endogenous DNA methylase.
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PMID:Reduced methyl group acceptance of 1-beta-D-arabinofuranosylcytosine-containing DNA polymers. 313 36

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.
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PMID:A reduced rate of bulky DNA adduct removal is coincident with differentiation of human neuroblastoma cells induced by nerve growth factor. 314 94

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