Wolfgang Nellen scite author profile

Although their amino acid sequences and structure closely resemble DNA methyltransferases, Dnmt2 proteins were recently shown by Goll and colleagues to function as RNA methyltransferases transferring a methyl group to the C5 position of C38 in tRNA Asp . We observe that human DNMT2 methylates tRNA isolated from Dnmt2 knock-out Drosophila melanogaster and Dictyostelium discoideum. RNA extracted from wild type D. melanogaster was methylated to a lower degree, but in the case of Dictyostelium, there was no difference in the methylation of RNA isolated from wild-type and Dnmt2 knock-out strains. Methylation of in vitro transcribed tRNAAsp confirms it to be a target of DNMT2. Using site directed mutagenesis, we show here that the enzyme has a DNA methyltransferase-like mechanism, because similar residues from motifs IV, VI, and VIII are involved in catalysis as identified in DNA methyltransferases. In addition, exchange of C292, which is located in a CFT motif conserved among Dnmt2 proteins, strongly reduced the catalytic activity of DNMT2. Dnmt2 represents the first example of an RNA methyltransferase using a DNA methyltransferase type of mechanism.

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Mechanism and biological role of Dnmt2 in Nucleic Acid Methylation

Jeltsch

et al. 2016

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A group of homologous nucleic acid modification enzymes called Dnmt2, Trdmt1, Pmt1, DnmA, and Ehmet in different model organisms catalyze the transfer of a methyl group from the cofactor S-adenosyl-methionine (SAM) to the carbon-5 of cytosine residues. Originally considered as DNA MTases, these enzymes were shown to be tRNA methyltransferases about a decade ago. Between the presumed involvement in DNA modification-related epigenetics, and the recent foray into the RNA modification field, significant progress has characterized Dnmt2-related research. Here, we review this progress in its diverse facets including molecular evolution, structural biology, biochemistry, chemical biology, cell biology and epigenetics.

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Formation of nucleoprotein filaments by mammalian DNA methyltransferase Dnmt3a in complex with regulator Dnmt3L

et al. 2008

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The C-terminal domains of Dnmt3a and Dnmt3L form elongated heterotetramers (3L-3a-3a-3L). Analytical ultracentrifugation confirmed the Dnmt3a-C/3L-C complex exists as a 2:2 heterotetramer in solution. The 3a–3a interface is the DNA-binding site, while both interfaces are essential for AdoMet binding and catalytic activity. Hairpin bisulfite analysis shows correlated methylation of two CG sites in a distance of ∼8-10 bp in the opposite DNA strands, which corresponds to the geometry of the two active sites in one Dnmt3a-C/3L-C tetramer. Correlated methylation was also observed for two CG sites at similar distances in the same DNA strand, which can be attributed to the binding of two tetramers next to each other. DNA-binding experiments show that Dnmt3a-C/3L-C complexes multimerize on the DNA. Scanning force microscopy demonstrates filament formation rather than binding of single tetramers and shows that protein–DNA filament formation leads to a 1.5-fold shortening of the DNA length.

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Phenocopy of discoidin I-minus mutants by antisense transformation in Dictyostelium

Crowley¹,

Nellen²,

Gomer³

et al. 1985

Cell

224

118

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Using an antisense construct of the discoidin gene transfected into Dictyostelium, we have repressed the expression of the three endogenous discoidin genes. Transformants exhibit a greater than 90% reduction in accumulated discoidin mRNA and protein. Nuclear run-on assays show that both the endogenous and the antisense genes are transcribed. Since only minor amounts of endogenous gene transcripts and none from the antisense gene can be detected on blots, we suggest that hybrids are formed within the nucleus and are rapidly degraded. Discoidin is believed to play a role in cell-substratum interaction and exhibits homologies to fibronectin. Discoidin-minus mutants exhibit the developmental phenotype of not streaming on a plastic surface. Antisense transformants show a similar phenotype and are thus phenocopies of these mutants.

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Wolfgang Nellen

Human DNMT2 methylates tRNA^Asp molecules using a DNA methyltransferase-like catalytic mechanism

Mechanism and biological role of Dnmt2 in Nucleic Acid Methylation

Formation of nucleoprotein filaments by mammalian DNA methyltransferase Dnmt3a in complex with regulator Dnmt3L

Phenocopy of discoidin I-minus mutants by antisense transformation in Dictyostelium

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Wolfgang Nellen

Human DNMT2 methylates tRNAAsp molecules using a DNA methyltransferase-like catalytic mechanism

Mechanism and biological role of Dnmt2 in Nucleic Acid Methylation

Formation of nucleoprotein filaments by mammalian DNA methyltransferase Dnmt3a in complex with regulator Dnmt3L

Phenocopy of discoidin I-minus mutants by antisense transformation in Dictyostelium

Contact Info

Product

Resources

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Human DNMT2 methylates tRNA^Asp molecules using a DNA methyltransferase-like catalytic mechanism