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)

After intravenous hydrocortisone injection (2 mg per 100 g of animal weight) DNA methylase activity in rat liver increases 1.5-2 times. Rat liver DNA is capable of being methylated in vitro by homologous and heterologous (from rat spleen and ascite carcinoma cells) enzymes. Rat liver DNA isolated 40 min after hydrocortisone injection contains 1.5 times more 5-methylcytosine and is able to accept 1.5 times less methyl groups from (3H-methyl)-S-adenosylmethionine in the in vitro methylation reaction by enzymes from rat spleen as compared to liver DNA isolated from nontreated rats. Thus, there is DNA supermethylation in rat liver cells occurring under the action of the hormone. This induced change in the methylation level of DNA in rat liver is reversible: 6 hours after a single hydrocortisone injection the amount of 5-methylcytosine in DNA decreases to normal, and the DNA ability to accept methyl groups in the in vitro methylation is the same as compared to that of liver DNA from control animals. The induced reversible DNA methylation is to be considered as a mechanism for the regulation of DNA transcription and cell genetic activity.
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PMID:[Rat liver methylation of nuclear DNA following hydrocortisone induction]. 127 66

The alpha-fetoprotein gene is conceived as being methylated in the zygote and according to the model is in a heterochromatic state and is therefore in a non-functional condition. Specific DNA methylase genes would produce methylases capable of alkylating enhancer regions of alpha-fetoprotein and certain proteins that would alter the heterochromatin condition. Also involved is a gene for the synthesis of a conformational-inducer protein that is proposed to be capable of blocking genic regions from reheterochromatizing. One of the pivotal events is the accumulation of S-adenosyl-L-methionine that reaches intracellular pool concentrations allowing other redundant active S-adenosyltransferase genes to become active. During embryogenesis specific conformational-inducer proteins would block genes such as the gene for albumin from reheterochromatizing while alpha-fetoprotein gene becomes heterochromatized during subsequent cell cycles. This heterochromatin is formed with embryonic type proteins sensitive to ribosylation-induced conformational changes. The increase in synthesis of alpha-fetoprotein followed by a decrease as albumin synthesis increases during embryogenesis is predicted by the scheme.
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PMID:Derivation of a basic mechanism of control for embryonic genes as a specific subset. 128 99

Methylation of a plasmid containing the SV40 promoter linked to the chloramphenicol acetyl transferase (CAT) gene, with either murine DNA methylase or methylase SssI results in inhibition of the expression of the reporter gene after transfection into cultured cells. Methylation of the plasmid with the methylases HhaI and HpaII has no effect on the expression of this gene. Protein-DNA interactions in the SV40 promoter are not affected by the presence of methylcytosine suggesting that inactivation results from the formation of an inactive chromatin structure that is dependent on the high CG content of the plasmid.
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PMID:Vector methylation inhibits transcription from the SV40 early promoter. 132 53

Many polymerase chain reaction (PCR)-based methods for diagnosis of minute mutations are suboptimal for automated screening because of their reliance on gel electrophoresis or probe hybridization. In the method reported here, PCR products containing artificial methylation sites are analyzed by measuring incorporation of radiolabeled methyl groups. Primers are designed to amplify the possible mutation-containing region such that the 3' end of one primer lies adjacent to the possible mutation. Sequence modification near that end creates either a mutation- or wild type (WT)-specific artificial methylation site in the PCR product. The product is briefly incubated with an appropriate DNA methylase and tritiated S-adenosylmethionine ([3H]SAM), separated from free SAM by column chromatography, and analyzed for incorporation of tritium. Applying this technique to the cystic fibrosis delta F508 deletion, we accurately diagnosed five homozygotes, five heterozygotes, and five normal individuals within 40 min of PCR completion. The method can be generalized to rapid, automated detection of a variety of point mutations and small deletions.
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PMID:DNA diagnosis with mutation-specific artificial methylation sites: application to rapid screening of delta F508. 145 78

Escherichia coli dam mutants, lacking the GATC DNA methylase, do not produce anucleate cells at high frequencies, suggesting that hemimethylation of the chromosome origin of replication, oriC, is not essential for correct chromosome partitioning.
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PMID:Chromosome partitioning in Escherichia coli in the absence of dam-directed methylation. 155 54

It is now apparent that certain embryonic gene activities may be maintained before the transition from embryonic to the adult state takes place. The consequence of such a condition could have far reaching results and create a totally new approach to biotechnology by dealing with epigenetic methods and not gene-splicing methods. For example, if a group of c-oncogenes, believed to be of the embryonic type (1) that are responsible for growth factors which regulate embryonic rates of growth, then large increases in growth rates during the adult stage should occur. Two major alterations seem to be required. One is the interference of DNA methylation patterns using such agents as ethionine (interfering with S-adenoysl-1-methionine synthesis) or azacytidine (interfering with DNA methylase activity). Secondly, a change in chromatin configuration (deheterochromatization?) with agents such as n-butyrate or hexamethylenebisacetamide (HMBA). Maintenance methylases would make the altered (hypomethylated) pattern of the perturbed chromatin invariant after the initial perturbation. Enhancer-promoter mechanics are probably pertinent to this process.
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PMID:Maintenance of embryonic gene activity into the adult state. 162 2

The methylation status of three highly repeated sequences was studied in sperm, eggs and preimplantation embryos with different combinations of parental chromosomes. High levels of methylation of the IAP and MUP sequence families were found in sperm and in eggs, whereas the L1 repeat was found to be highly methylated in sperm but only about 42% methylated in eggs. To assess how the two parental genomes behaved during preimplantation development, normal, fertilised embryos were compared with parthenogenetic embryos where the chromosomes are exclusively of maternal origin. It was observed that the high levels of methylation at the IAP and MUP sequences were retained through early development, with the first signs of demethylation at the IAP sequences apparent on both parental chromosomes in the blastocyst. Methylation at the sperm-derived L1 sequences dropped to about the same level as that of the egg-derived sequences by the late 2-cell stage, both then remain at this intermediate level until around the time of cavitation when levels fell to about 10% in the blastocyst. High levels of DNA methylase were detected in germinal vesicle and metaphase II oocytes; these high levels were maintained in fertilised and parthenogenetic embryos through into the morula and then declined to be undetectable in the blastocyst. Our comparison of maternal and paternal genomes suggests that methylation levels at repeat sequences are remarkably similar at the time of fertilisation or, as in the case of the L1 sequences, they become so during the first few cell cycles. Hence, there do not appear to be global methylation differences between the genomes that are retained through preimplantation development.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Methylation levels of maternal and paternal genomes during preimplantation development. 176 89

The protooncogene c-myc was investigated in N-nitrosomorpholine-induced rat liver nodules to elucidate the role of altered DNA methylation in chemical carcinogenesis. Furthermore, Micrococcus luteus DNA and chicken erythrocyte DNA were modified in vitro by reactive metabolites of N-nitrosomorpholine, generated by P450-dependent monooxygenases. The modified DNAs were less methylated in vitro than control DNAs by DNA-(cytosine-5)-methyltransferase (DNA methylase). The DNA methylase assay and 32P-postlabeling analysis revealed lowered levels of DNA methylation in nodular DNA. In nodular tissue, c-myc messenger RNA levels were found to be increased compared to normal liver. DNA methylation analysis using the restriction endonucleases HpaII/MspI indicated hypomethylation in the first intron of c-myc DNA in liver nodules. The results suggest that genotoxic lesions may cause stably inherited, aberrant DNA methylation patterns which may be responsible for site-specific hypomethylation of the c-myc protooncogene in liver nodules.
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PMID:Site-specific hypomethylation of c-myc protooncogene in liver nodules and inhibition of DNA methylation by N-nitrosomorpholine. 185 51

A gene from the periodontal organism Porphyromonas gingivalis has been identified as encoding a DNA methylase. The gene, referred to as pgiIM, has been sequenced and found to contain a reading frame of 864 basepairs. The putative amino acid sequence of the encoded methylase was 288 amino acids, and shared 47% and 31% homology with the Streptococcus pneumoniae DpnII and E. coli Dam methylases, respectively. The activity and specificity of the pgi methylase (M.PgiI) was confirmed by cloning the gene into a dam- strain of E. coli (JM110) and performing a restriction analysis on the isolated DNA with enzymes whose activities depended upon the methylation state of the DNA. The data indicated that M.PgiI, like DpnII and Dam, methylated the adenine residue within the sequence 5'-GATC-3'.
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PMID:Identification and sequence analysis of a methylase gene in Porphyromonas gingivalis. 187 Sep 72

Classical genetics has revealed the mechanisms for the transmission of genes from generation to generation, but the strategy of the genes in unfolding the developmental programme remains obscure. Epigenetics comprises the study of the mechanisms that impart temporal and spatial control on the activities of all those genes required for the development of a complex organism from the zygote to the adult. Epigenetic changes in gene activity can be studied in relation to DNA methylation in cultured mammalian cells and it is also possible to isolate and characterize mutants with altered DNA methylase activity. Although this experimental system is quite far removed from the epigenetic controls acting during development it does provide the means to clarify the rules governing the silencing of genes by specific DNA methylation and their reactivation by demethylation. This in turn will facilitate studies on the control of gene expression in somatic cells of the developing organism or the adult. The general principles of epigenetic mechanisms can be defined. There are extreme contrasts between instability or switches in gene expression, such as those in stem-line cells, and the stable heritability of a specialized pattern of gene activities. In some situations cell lineages are known to be important, whereas in others coordinated changes in groups of cells have been demonstrated. Control of numbers of cell divisions and the size of organisms, or parts of organisms, is also essential. The epigenetic determination of gene expression can be reversed or reprogrammed in the germ line. The extent to which methylation or demethylation of specific DNA sequences can help explain these basic epigenetic mechanisms is briefly reviewed.
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PMID:DNA methylation and epigenetic inheritance. 196 68

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