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)

Previously, we have derived murine hybridomas producing monoclonal antibodies against DNA methyltransferase from human placenta (Kaul, S., Pfeifer, G. P., and Drahovsky, D. (1984) Eur. J. Cell Biol. 34, 330-335). One of these monoclonal antibodies, M2B10, which undergoes immune complex formation also with DNA methyltransferase from P815 mouse mastocytoma cells, was used for the immunoaffinity purification of mouse and human DNA methyltransferases. In sodium dodecyl sulfate-polyacrylamide gels and in immunoblotting studies, the immunoaffinity-purified mouse DNA methyltransferase revealed 5-6 polypeptides of molecular masses 150-190 kDa. The immunoaffinity-purified human placental DNA methyltransferase was characterized by a polypeptide of 158 kDa, presumably representing the native enzyme molecule and by polypeptides of 105-108 kDa and 50-68 kDa, probably generated by a limited proteolysis of the native enzyme molecule. The immunoaffinity-purified DNA methyltransferases preferred hemimethylated DNA substrates over unmethylated ones, and among all unmethylated substrates tested, poly[(dG-dC).(dG-dC)] had the highest methyl-accepting activity. DNA polymers of at least 90 base pairs in length were required for the binding reaction of the immunoaffinity-purified human DNA methyltransferase, and this initial binding was apparently independent of the nucleotide composition of the DNA polymer and of the presence of S-adenosyl-L-methionine.
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PMID:Purification and characterization of mammalian DNA methyltransferases by use of monoclonal antibodies. 393 45

DNA methylase from rat liver was partially purified through a DEAE sephacel column and characterized in an in vitro assay with respect to time, protein, DNA and S-adenosylmethionine curves. The Km for S-adenosylmethionine was 2.5 microM. Sodium selenium inhibited the methylation of DNA in a dose dependent fashion when added to the assay. It was also demonstrated that selenite non-competitively inhibits rat-liver DNA methylase with a Ki of 6.7 microM. Dithiothreitol had no effect on selenite inhibition and increasing amounts of DNA did not alter the inhibition. However, increasing amounts of protein overcame the inhibition, suggesting that selenite is reacting with the DNA methylase protein. DNA methylase isolated from selenite treated animals had only 43% of the activity as enzyme from control rats. It appears that selenite is a good inhibitor of DNA methylase.
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PMID:Selenite: a good inhibitor of rat-liver DNA methylase. 398 87

An express method for measuring the level of in vitro DNA methylation in homogenates and nuclei from animal tissues as well as during initial steps of DNA methylase isolation and purification when methylase activity is low and hardly testable by other methods has been suggested. The method is based on the measuring the radioactivity incorporated in filter adsorbed DNA (acid-insoluble material) 3H-label from S-adenosile-L-methionine as a result of in vitro DNA methylation. The advantage of the method consists in the replacement of a long-duration repeated deproteinization procedure traditionally used by a relatively simple procedure (15 min incubation of the mixture at 80 degrees C with 10 volumes of the 8M urea, 5 mM EDTA, 5% n-butanol, 2% sodium dodecilsulfate, 1 M sodium chloride solution) and the absence of any loss of DNA. The method is fit for the fast serial assay of DNA methylase activity taking into consideration that about one third of the total acid-insoluble radioactivity is due to the radioactivity in 5-methylcytosine residues in DNA.
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PMID:[Determination of DNA methylase activity in animal tissue extracts]. 398 46

Two S-adenosyl-L-methionine:DNA (cytosine 5)-methyltransferases, termed M.BsuRIa and M.BsuRIb, were purified 3,000- and 4,000-fold, respectively, from Bacillus subtilis strain OG3R (r+m+) by successive column chromatography. The molecular weights determined by gel filtration were 37,000 for M.BsuRIa and 40,000 for M.BsuRIb. The sedimentation coefficients s20,w were 3.55 for both enzymes as determined by glycerol gradient centrifugation, corresponding to molecular weights of 43,000. Analysis of the two methyltransferases by agarose gel electrophoresis under native conditions, followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, showed correspondence of the M.BsuRIa activity with one protein band at a molecular weight of 41,000, whereas M.BsuRIb activity was associated with two protein bands with molecular weights of 42,000 and 39,000, respectively.
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PMID:Restriction and modification in Bacillus subtilis: two DNA methyltransferases with BsuRI specificity. I. Purification and physical properties. 626 72

A modification methylase was isolated from Bacillus stearothermophilus 1503-4R (Bst 1503I) and purified to homogeneity. The enzyme is an acidic protein and composed of a subunit with a molecular weight of 105 000, and only the tetrameric form was detected in solution. The methylase exhibited maximal activity between 54 and 61 degrees C and between pH 8.1 and 9.3. In contrast to Bst 1503I endonuclease [Catterall, J.F., & Welker, N. E. (1977) J. Bacteriol. 129, 1110-1120], the methylase is completely inactivated when exposed to temperatures near the optimal growth temperature (63-67 degrees C). The methylase was also inactivated when exposed to temperatures below the minimal growth temperature (48-53 degrees C). The thermostability of the methylase is significantly enhanced by Na+, K+, or NH4+. Membrane-bound methylase is resistant to heat inactivation at temperatures near the maximum growth temperature (73-75 degrees C). The methylase functions as a tetramer. The initial rates of methyl transfer are first order in methylase concentration, and the enzyme obeys Michaelis-Menten kinetics with respect to DNA but not to S-adenosyl-L-methionine.
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PMID:Deoxyribonucleic acid modification methylase from Bacillus stearothermophilus. 722 21

Dietary folate/methyl deficiency provides a unique model of endogenous hepatocarcinogenesis in which to study progressive alterations in DNA methylation patterns during tumor progression in vivo. Weanling male F344 rats were given a semi-purified diet deficient in the methyl donors choline, methionine and folic acid for a period of 9 weeks. Using a genomic sequencing procedure based on the PCR amplification of bisulfite-modified DNA, the methylation status of individual CpG sites within exons 6 and 7 of the p53 gene in liver samples from control and deficient rats was determined. Treatment of denatured nuclear DNA with sodium bisulfite quantitatively converts all cytosine residues to uracil which are then amplified as thymine in the PCR reaction. In contrast, 5-methylcytosine is resistant to bisulfite deamination under the reaction conditions and is amplified as cytosine. Automated sequencing of bisulfite-modified DNA will then elucidate the methylation status of each cytosine residue within a defined gene sequence. In addition to evaluation of the methylation status of the p53 gene, the relative activity of the DNA methyltransferase was also quantified in nuclear extracts from control and folate/methyl deficient rats. The results indicate that specific 5-methyl cytosines within the hepatic p53 gene from methyl deficient rats are resistant to demethylation despite the diet-induced decrease in S-adenosylmethionine and the increase in cell proliferation associated with this dietary intervention. Progressive demethylation was observed at other methylated cytosine residues in folate/methyl deficient rats after 9 weeks despite a paradoxical increase in DNA methyltransferase activity. The application of this sequence-specific technology will allow the definition of the methylation status of every CpG site within a coding sequence or promoter region and should provide new insights into mechanisms and consequences of methylation dysregulation during progressive multistage carcinogenesis.
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PMID:Differential sensitivity to loss of cytosine methyl groups within the hepatic p53 gene of folate/methyl deficient rats. 758 11

EcoP1 modification methylase was radioactively labeled when incubated with S-adenosyl-L-[methyl-3H]methionine in the presence of ultraviolet light. Crosslinking of the enzyme as detected by electrophoresis on sodium dodecyl sulfate-polyacrylamide gel followed by fluorography and autoradiography, was shown to be specific by a number of criteria. More importantly, EcoP1 modification methylase was also radioactively labeled with S-adenosyl-L-[carboxyl-14C]methionine demonstrating that labeling involved binding of the entire AdoMet molecule rather than methylation of the protein. Further, c2 EcoP1 mutant DNA modification methylases which show negligible or very little methylation activity, correspondingly formed a weak or no adduct upon crosslinking. These results suggest that photolabeling of EcoP1 DNA modification methylase occurs at the AdoMet binding site.
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PMID:Interaction of EcoP1 modification methylase with S-adenosyl-L-methionine: a UV-crosslinking study. 803 13

Radioactivity from S-adenosyl-L-[methyl-3H]methionine ([methyl-3H]AdoMet) was bound to the EcoP15 DNA methyltransferase (M.EcoP15) following short-wave ultraviolet (UV) irradiation. The labeled protein was subjected to polyacrylamide-gel electrophoresis in the presence of sodium dodecyl sulfate (SDS-PAGE), and detected by fluorography and autoradiography. Labeling was found to be dependent on the concentration of AdoMet and time of UV irradiation. The photolabeling by [methyl-3H]AdoMet was specific and blocked by S-adenosyl-L-homocysteine (AdoHcy) and sinefungin which are known to function as competitive inhibitors. Limited digestion of the M.EcoP15-AdoMet adduct by Staphylococcus aureus protease V8 generated three peptides of approx. 50, 32 and 30 kDa. Interestingly, only the 30-kDa peptide fragment contained radioactivity, as detected by SDS-PAGE, followed by fluorography and autoradiography. Further, sequencing of a few amino acids at the N-terminus of these peptides showed that the 30-kDa fragment was the N-terminal portion of M.EcoP15. These results suggest that photolabeling is at the AdoMet-binding site and that the N-terminal half of M.EcoP15 may be involved in substrate binding.
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PMID:Photolabeling of the EcoP15 DNA methyltransferase with S-adenosyl-L-methionine. 818 59

The gene (bseCIM) encoding the BseCI DNA methyltransferase (MTase; M.BseCI) from a Bacillus stearothermophilus species was cloned and expressed in Escherichia coli using plasmid vector pBR322. Selection of transformants carrying bseCIM was based on the resistance of the modified plasmid to cleavage by BseCI. The MTase was purified to homogeneity and further characterized. Its size as determined by sodium dodecyl sulfate-polyacrylamide-gel electrophoresis and size exclusion chromatography was 68 kDa, suggesting that the MTase exists as a monomer. When phage lambda DNA was used as a substrate, the optimum temperature for MTase activity was determined to be 50-55 degrees C and optimum pH approx. 7.4. M.BseCI is inhibited by concentrations of NaCl and KCl greater than 50 mM, and it does not require Mg2+ for activity. Finally, M.BseCI methylates the 3' adenine residue in the sequence, 5'-ATCGAT-3', similarly to its isoschizomer M.ClaI.
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PMID:Cloning, purification and characterization of the BseCI DNA methyltransferase from Bacillus stearothermophilus. 822

One of the "signature" phenotypes of highly malignant, poorly differentiated tumors, including hepatomas, is their remarkable propensity to utilize glucose at a much higher rate than normal cells, a property frequently dependent on the marked overexpression of type II hexokinase (HKII). As the expression of the gene for this enzyme is nearly silent in liver tissue, we tested the possibility that DNA methylation/demethylation events may be involved in its regulation. Initial studies employing methylation restriction endonuclease analysis provided evidence for differential methylation patterns for the HKII gene in normal hepatocytes and hepatoma cells, the latter represented by a highly glycolytic model cell line (AS-30D). Subsequently, sequencing following sodium bisulfite treatment revealed 18 methylated CpG sites within a CpG island (-350 to +781 bp) in the hepatocyte gene but none in that of the hepatoma. In addition, treatment of a hepatocyte cell line with the DNA methyltransferase inhibitors, 5'-azacytidine and 5'-aza-2'-deoxycytidine, activated basal expression levels of HKII mRNA and protein. Finally, stably transfecting the hepatocyte cell line with DNA demethylase also resulted in activating the basal expression levels of HKII mRNA and protein. These novel observations indicate that one of the initial events in activating the HKII gene during either transformation or tumor progression may reside at the epigenetic level.
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PMID:Glucose metabolism in cancer. Evidence that demethylation events play a role in activating type II hexokinase gene expression. 1256 45

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