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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)

The amino acid sequence of mammalian DNA methyltransferase has been deduced from the nucleotide sequence of a cloned cDNA. It appears that the mammalian enzyme arose during evolution via fusion of a prokaryotic restriction methyltransferase gene and a second gene of unknown function. Mammalian DNA methyltransferase currently comprises an N-terminal domain of about 1000 amino acids that may have a regulatory role and a C-terminal 570 amino acid domain that retains similarities to bacterial restriction methyltransferases. The sequence similarities among mammalian and bacterial DNA cytosine methyltransferases suggest a common evolutionary origin. DNA methylation is uncommon among those eukaryotes having genomes of less than 10(8) base pairs, but nearly universal among large-genome eukaryotes. This and other considerations make it likely that sequence inactivation by DNA methylation has evolved to compensate for the expansion of the genome that has accompanied the development of higher plants and animals. As methylated sequences are usually propagated in the repressed, nuclease-insensitive state, it is likely that DNA methylation compartmentalizes the genome to facilitate gene regulation by reducing the total amount of DNA sequence that must be scanned by DNA-binding regulatory proteins. DNA methylation is involved in immune recognition in bacteria but appears to regulate the structure and expression of the genome in complex higher eukaryotes. I suggest that the DNA-methylating system of mammals was derived from that of bacteria by way of a hypothetical intermediate that carried out selective de novo methylation of exogenous DNA and propagated the methylated DNA in the repressed state within its own genome.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:DNA methylation: evolution of a bacterial immune function into a regulator of gene expression and genome structure in higher eukaryotes. 196 55

The genes coding for the class-II Serratia marcescens restriction-modification system have been cloned and expressed in E. coli. Recombinant clones, restricted incoming phage only poorly; the recombinant plasmids, however, became fully modified in vivo, i.e. completely resistant against digestion with R.SmaI. The determined nucleotide sequence of the cloned system revealed three open reading frames with lengths of 252 bp, 741 bp, and 876 bp. Through various deletion experiments and an insertion-mutation experiment the 876 bp open reading frame could be assigned to the SmaI DNA modification enzyme and the 741 bp open reading frame to the SmaI restriction endonuclease. Mapping of the transcription start sites of the genes revealed that the SmaI endonuclease is transcribed as polycistronic mRNA together with a 252 bp long preceding open reading frame of unknown function. No homology was found when comparing the amino acid sequence of M.SmaI with the published sequences of m5C-specific DNA modification methyltransferases. On the other hand, a stretch of 14 amino acids in the C-proximal region of M.SmaI shows a significant homology to the C-proximal amino acid sequences of the N6A-methyltransferases M.HinfI and M.DpnIIA and the N4C-methyltransferase M.PvuII.
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PMID:Cloning, characterization and heterologous expression of the SmaI restriction-modification system. 269 8

The Escherichia coli ada-alkB operon encodes a 39-kDa protein (Ada) that is a DNA-repair methyltransferase and a 27-kDa protein (AlkB) of unknown function. By DNA blot hybridization analysis we show that the alkylation-sensitive E. coli mutant BS23 [Sedgwick, B. & Lindahl, T. (1982) J. Mol. Biol. 154, 169-175] is a deletion mutant lacking the entire ada-alkB operon. Despite the absence of the ada gene and its product, the cells contain detectable levels of a DNA-repair methyltransferase activity. We conclude that the methyltransferase in BS23 cells is the product of a gene other than ada. A similar activity was detected in extracts of an ada-10::Tn10 insertion mutant of E. coli AB1157. This DNA methyltransferase has a molecular mass of about 19 kDa and transfers the methyl groups from O6-methylguanine and O4-methylthymine in DNA, but not those from methyl phosphotriester lesions. This enzyme was not induced by low doses of alkylating agent and is expressed at low levels in ada+ and a number of ada- E. coli strains.
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PMID:A second DNA methyltransferase repair enzyme in Escherichia coli. 328 37

We have partially purified a DNA methyltransferase from human placenta using a novel substrate for a highly sensitive assay of methylation of hemimethylated DNA. This substrate was prepared by extensive nick translation of bacteriophage XP12 DNA, which normally has virtually all of its cytosine residues replaced by 5-methylcytosine (m5C). Micrococcus luteus DNA was just as good a substrate if it was first similarly nick translated with m5dCTP instead of dCTP in the polymerization mixture. At different stages in purification and under various conditions (including in the presence or absence of high mobility group proteins), the methylation of m5C-deficient DNA and that of hemimethylated DNA were compared. Although hemimethylated , m5C-rich DNAs were much better substrates than were m5C-deficient DNAs and normal XP12 DNA could not be methylated, all of these DNAs were bound equally well by the enzyme. In contrast, from the same placental extract, a DNA-binding protein of unknown function was isolated which binds to m5C-rich DNA in preference to the analogous m5C-poor DNA.
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PMID:Human placental DNA methyltransferase: DNA substrate and DNA binding specificity. 653 66

The sequenced genomes of the two closely related bacteria Mycoplasma genitalium and Mycoplasma pneumoniae were compared with emphasis on genome organization and coding capacity. All the 470 proposed open reading frames (ORFs) of the smaller M.genitalium genome (580 kb) were contained in the larger genome (816 kb) of M.pneumoniae. There were some discrepancies in annotation, but inspection of the DNA sequences showed that the corresponding DNA was always present in M. pneumoniae. The two genomes could be subdivided into six segments. The order of orthologous genes was well conserved within individual segments but the order of these segments in both bacteria was different. We explain the different organization of the segments by translocation via homologous recombination. The translocations did not disturb the continuous bidirectional course of transcription in both genomes, starting at the proposed origin of replication. The additional 236 kb in M.pneumoniae,compared with theM.genitalium genome, were coding for 209 proposed ORFs not identified in M.genitalium. Of these ORFs, 110 were specific to M.pneumoniae exhibiting no significant similarity to M.genitalium ORFs, while 76 ORFs were amplifications of ORFs existing mainly as single copies in M. genitalium. In addition, 23 ORFs containing a copy of either one of the three repetitive DNA sequences RepMP2/3, RepMP4 and RepMP5 were annotated in M.pneumoniae but not in M.genitalium,although similar DNA sequences were present. TheM.pneumoniae-specific genes included a restriction-modification system, two transport systems for carbohydrates, the complete set of three genes coding for the arginine dihydrolase pathway and 14 copies of the repetitive DNA sequence RepMP1 which were part of several different translated genes with unknown function.
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PMID:Comparative analysis of the genomes of the bacteria Mycoplasma pneumoniae and Mycoplasma genitalium. 901 18

Treatment of Schizosaccharomyces pombe with the C5 DNA methyltransferase (C5Mtase) inhibitor 5-azacytidine (5-azaC) has previously been shown to induce G2 checkpoint-dependent cell cycle arrest. S. pombe strains defective in both the checkpoint control pathways and in DNA repair processes are sensitive to 5-azaC. Here we describe the isolation of azr1+, as a multi-copy suppressor of the 5-azaC sensitivity of G2 checkpoint and DNA repair-deficient strains. azr1+ encodes a putative 25 kDa protein with limited homology to a Saccharomyces cerevisiae open reading frame of unknown function. The azr1+ gene is not essential and the null mutant shows no alteration in either DNA repair or checkpoint properties. We also report the sequence of the putative fission yeast cytidine deaminase gene, designated pcd1+, which lies immediately adjacent to azr1+ but which plays only a moderate role in suppression of 5-azaC sensitivity.
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PMID:Isolation of a Schizosaccharomyces pombe gene which in high copy confers resistance to the nucleoside analogue 5-azacytidine. 915 56

The rpoS gene encodes the alternative sigma factor sigma(S) (RpoS) and is required for survival of bacteria under starvation and stress conditions. It is also essential for Salmonella virulence in mice. Most work on the RpoS regulon has been in the closely related enterobacterial species Escherichia coli. To characterize the RpoS regulon in Salmonella, we isolated 38 unique RpoS-activated lacZ gene fusions from a bank of Salmonella enterica serovar Typhimurium mutants harboring random Tn5B21 mutations. Dependence on RpoS varied from 3-fold to over 95-fold, and all gene fusions isolated were regulated by growth phase. The identities of 21 RpoS-dependent fusions were determined by DNA sequence analysis. Seven of the fusions mapped to DNA regions in Salmonella serovar Typhimurium that do not match any known E. coli sequence, suggesting that the composition of the RpoS regulon differs markedly in the two species. The other 14 fusions mapped to 13 DNA regions very similar to E. coli sequences. None of the insertion mutations in DNA regions common to both species appeared to affect Salmonella virulence in BALB/c mice. Of these, only three (otsA, katE, and poxB) are located in known members of the RpoS regulon. Ten insertions mapped in nine open reading frames of unknown function (yciF, yehY, yhjY, yncC, yjgB, yahO, ygaU, ycgB, and yeaG) appear to be novel members of the RpoS regulon. One insertion, that in mutant C52::H87, was in the noncoding region upstream from ogt, encoding a O(6)-methylguanine DNA methyltransferase involved in repairing alkylation damage in DNA. The ogt coding sequence is very similar to the E. coli homolog, but the ogt 5' flanking regions were found to be markedly different in the two species, suggesting genetic rearrangements. Using primer extension assays, a specific ogt mRNA start site was detected in RNAs of the Salmonella serovar Typhimurium wild-type strains C52 and SL1344 but not in RNAs of the mutant strains C52K (rpoS), SL1344K (rpoS), and C52::H87. In mutant C52::H87, Tn5B21 is inserted at the ogt mRNA start site, with lacZ presumably transcribed from the identified RpoS-regulated promoter. These results indicate that ogt gene expression in Salmonella is regulated by RpoS in stationary phase of growth in rich medium, a finding that suggests a novel role for RpoS in DNA repair functions.
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PMID:Identification of RpoS (sigma(S))-regulated genes in Salmonella enterica serovar typhimurium. 1100 73

ScrFI is a type II restriction-modification system from Lactococcus lactis which recognizes the nucleotide sequence 5'-CC downward arrow NGG-3', cleaving at the point indicated by the arrow, and it comprises an endonuclease gene that is flanked on either side by genes encoding two 5-methylcytosine methylases. An open reading frame (orfX) of unknown function is located immediately upstream of these genes. In this study Northern analysis was performed, and it revealed that orfX, scrFIBM, and scrFIR are cotranscribed as a single polygenic mRNA molecule, while scrFIAM is transcribed independently. 5' extension analysis indicated that the start site for the scrFIAM promoter was a thymine located 4 bp downstream of the -10 motif. The transcriptional start site for the orfX promoter was also found to be a thymine which is more atypically located 24 bp downstream of the -10 motif proximal to the start codon. A helix-turn-helix motif was identified at the N-terminal end of one of the methylases (M.ScrFIA). In order to determine if this motif played a role in regulation of the ScrFI locus, M.ScrFIA was purified. It was then employed in gel retardation assays using fragments containing the two promoters found on the ScrFI operon, one located upstream of orfX and the other located just upstream of scrFIAM. M.ScrFIA was found to bind to the promoter region upstream of the gene encoding it, indicating that it may have a regulatory role. In further studies the two putative promoters were introduced into a vector (pAK80) upstream of a promoterless lacZ gene, and cloned fragments of the ScrFI locus were introduced in trans with each of these promoter constructs to investigate the effect on promoter activity. These results implicated M.ScrFIA in regulation of both promoters on the ScrFI locus.
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PMID:Transcriptional analysis and regulation of expression of the ScrFI restriction-modification system of Lactococcus lactis subsp. cremoris UC503. 1144 5

Tissue culture has been widely used for mass propagation of Phalaenopsis. However, somaclonal variation occurred during micropropagation process posed a severe problem by affecting product quality. In this study, wild type and peloric flower buds of Phalaenopsis hybrids derived from flower stalk nodal culture were used for cDNA-RAPD and cDNA suppression subtractive hybridization analyses in order to study their genetic difference in terms of expressed sequence tags. A total of 209 ESTs from normal flower buds and 230 from mutants were sequenced. These ESTs sequences can be grouped into several functional categories involved in different cellular processes including metabolism, signal transduction, transcription, cell growth and division, protein synthesis, and protein localization, and into a subcategory of proteins with unknown function. Cymbidium mosaic virus transcript was surprisingly found expressed frequently in the peloric mutant of P. Little Mary. Real-time RT-PCR analysis on selected ESTs showed that in mutant flower buds, a bZIP transcription factor (TGA1a-like protein) was down-regulated, while up-regulated genes include auxin-regulated protein kinase, cyclophilin, and TCP-like genes. A retroelement clone was also preferentially expressed in the peloric mutant flowers. On the other hand, ESTs involved in DNA methylation, chromatin remodeling and post-transcriptional regulation, such as DNA methyltransferase, histone acetyltransferase, ERECTA, and DEAD/DEAH RNA helicase, were enriched in normal flower buds than the mutants. The enriched transcripts in the wild type indicate the down regulation of these transcripts in the mutants, and vice versa. The potential roles of the analyzed transcripts in the development of Phalaenopsis flowers are discussed.
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PMID:Transcription analysis of peloric mutants of Phalaenopsis orchids derived from tissue culture. 1611 54

In the protozoan parasite Entamoeba histolytica, 5-methylcytosine (m5C) was found predominantly in repetitive elements. Its formation is catalysed by Ehmeth, a DNA methyltransferase that belongs to the Dnmt2 subfamily. Here we describe a 32 kDa nuclear protein that binds in vitro with higher affinity to the methylated form of a DNA encoding a reverse transcriptase of an autonomous non-long-terminal repeat retrotransposon (RT LINE) compared with the non-methylated RT LINE. This protein, named E. histolytica-methylated LINE binding protein (EhMLBP), was purified from E. histolytica nuclear lysate, identified by mass spectrometry, and its corresponding gene was cloned. EhMLBP corresponds to a gene of unknown function that shares strong homology with putative proteins present in Entamoeba dispar and Entamoeba invadens. In contrast, the homology dropped dramatically when non-Entamoebidae sequences were considered and only a weak sequence identity was found with Trypanosoma and several prokaryotic histone H1. Recombinant EhMLBP showed the same binding preference for methylated RT LINE as the endogenous EhMLBP. Deletion mapping analysis localized the DNA binding region at the C-terminal part of the protein. This region is sufficient to assure the binding to methylated RT LINE with high affinity. Western blot and immunofluorescence microscopy, using an antibody raised against EhMLBP, showed that it has a nuclear localization. Chromatin immunoprecipitation (ChIP) confirmed that EhMLBP interacts with RT LINE in vivo. Finally, we showed that EhMLBP can also bind rDNA episome, a DNA that is methylated in the parasite. This suggests that EhMLBP may serve as a sensor of methylated repetitive DNA. This is the first report of a DNA-methylated binding activity in protozoa.
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PMID:Sensing DNA methylation in the protozoan parasite Entamoeba histolytica. 1705 65


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