Search results for "Methyltransferase"

showing 10 items of 260 documents

Dynamic modulation of Dnmt2-dependent tRNA methylation by the micronutrient queuine

2015

Dnmt2 enzymes are cytosine-5 methyltransferases that methylate C38 of several tRNAs. We report here that the activities of two Dnmt2 homologs, Pmt1 from Schizosaccharomyces pombe and DnmA from Dictyostelium discoideum, are strongly stimulated by prior queuosine (Q) modification of the substrate tRNA. In vivo tRNA methylation levels were stimulated by growth of cells in queuine-containing medium; in vitro Pmt1 activity was enhanced on Q-containing RNA; and queuine-stimulated in vivo methylation was abrogated by the absence of the enzyme that inserts queuine into tRNA, eukaryotic tRNA-guanine transglycosylase. Global analysis of tRNA methylation in S. pombe showed a striking selectivity of Pm…

RNA Transfer AspTRNA modificationGuanineMethyltransferaseTRNA methylationbiologyQueuosineQueuineMethylationbiology.organism_classificationMethylationchemistry.chemical_compoundRNA TransferchemistryBiochemistrySchizosaccharomycesTransfer RNAGeneticsRNADictyosteliumDNA (Cytosine-5-)-MethyltransferasesMicronutrientsPentosyltransferasesSchizosaccharomyces pombe ProteinsSchizosaccharomycesNucleic Acids Research
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The Dnmt2 RNA methyltransferase homolog of Geobacter sulfurreducens specifically methylates tRNA-Glu

2014

Dnmt2 enzymes are conserved in eukaryotes, where they methylate C38 of tRNA-Asp with high activity. Here, the activity of one of the very few prokaryotic Dnmt2 homologs from Geobacter species (GsDnmt2) was investigated. GsDnmt2 was observed to methylate tRNA-Asp from flies and mice. Unexpectedly, it had only a weak activity toward its matching Geobacter tRNA-Asp, but methylated Geobacter tRNA-Glu with good activity. In agreement with this result, we show that tRNA-Glu is methylated in Geobacter while the methylation is absent in tRNA-Asp. The activities of Dnmt2 enzymes from Homo sapiens, Drosophila melanogaster, Schizosaccharomyces pombe and Dictyostelium discoideum for methylation of the …

RNA Transfer AsptRNA MethyltransferasesMethyltransferasebiologyNucleic Acid EnzymesRNAMethylationbiology.organism_classificationMethylationDictyostelium discoideumRNA Transfer GluSubstrate SpecificityMiceBiochemistryBacterial ProteinsTransfer RNASchizosaccharomyces pombeGeneticsAnimalsHumansNucleic Acid ConformationGeobacterGeobacter sulfurreducensGeobacterNucleic Acids Research
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Catalytic Reaction Mechanism in Native and Mutant Catechol- O-methyltransferase from the Adaptive String Method and Mean Reaction Force Analysis.

2018

Catechol- O-methyltransferase is an enzyme that catalyzes the methylation reaction of dopamine by S-adenosylmethionine, increasing the reaction rate by almost 16 orders of magnitude compared to the reaction in aqueous solution. Here, we combine the recently introduced adaptive string method and the mean reaction force method, in combination with the structural and electronic descriptors to characterize the reaction mechanism. The catalytic effect of the enzyme is addressed by the comparison of the reaction in the human wild-type enzyme, in the less effective Y68A mutant, and in aqueous solution. The influence of these different environments at different stages of the chemical process and th…

Reaction mechanismS-AdenosylmethionineDopamine010402 general chemistryCatechol O-Methyltransferase01 natural sciencesMethylationCatalysisCatalysisReaction ratechemistry.chemical_compoundCatalytic Domain0103 physical sciencesMaterials ChemistryMoleculeHumansPhysical and Theoretical ChemistryCatecholAqueous solution010304 chemical physicsbiologyChemistryActive siteWaterCombinatorial chemistry0104 chemical sciencesSurfaces Coatings and FilmsMutationbiology.proteinSN2 reactionThermodynamicsThe journal of physical chemistry. B
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Dynamics and reactivity in Thermus aquaticus N6-adenine methyltransferase.

2014

M.TaqI is a DNA methyltransferase from Thermus aquaticus that catalyzes the transfer of a methyl group from S-adenosyl-l-methionine to the N6 position of an adenine, a process described only in prokaryotes. We have used full atomistic classical molecular dynamics simulations to explore the protein–SAM–DNA ternary complex where the target adenine is flipped out into the active site. Key protein–DNA interactions established by the target adenine in the active site are described in detail. The relaxed structure was used for a combined quantum mechanics/molecular mechanics exploration of the reaction mechanism using the string method. According to our free energy calculations the reaction takes…

Reaction mechanismSite-Specific DNA-Methyltransferase (Adenine-Specific)BioinformaticsStereochemistryProtein ConformationMolecular Dynamics SimulationBiochemistryCatalysisMolecular dynamicschemistry.chemical_compoundColloid and Surface ChemistryReaction rate constantAbstractingA-DNAThermusTernary complexThermus aquaticusbiologyActive siteGeneral ChemistryDNAbiology.organism_classificationchemistryFunctional groupsbiology.proteinAmino acidsNucleic Acid ConformationQuantum TheoryThermodynamicsMethyl groupJournal of the American Chemical Society
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m6A RNA methylation regulates promoter proximal pausing of RNA Polymerase II

2021

AbstractRNA Polymerase II (RNAP II) pausing is essential to precisely control gene expression and is critical for development of metazoans. Here, we show that the m6A RNA modification regulates promoter-proximal RNAP II pausing. The m6A methyltransferase complex (MTC), with the nuclear reader Ythdc1, are recruited to gene promoters. Depleting the m6A MTC leads to a decrease in RNAP II pause release and in Ser2P occupancy on the gene body, and affects nascent RNA transcription. Tethering Mettl3 to a heterologous gene promoter is sufficient to increase RNAP II pause release, an effect that relies on its m6A catalytic domain. Collectively, our data reveal an important link between RNAP II paus…

Regulation of gene expression0303 health sciencesbiologyRNA methylationChemistryMethyltransferase complex[SDV]Life Sciences [q-bio]030302 biochemistry & molecular biologyHeterologousRNA polymerase IIPromoterCell BiologyCell biology[SDV] Life Sciences [q-bio]enzymes and coenzymes (carbohydrates)03 medical and health sciencesGene expressionbiology.proteinbacteriaMolecular BiologyGeneComputingMilieux_MISCELLANEOUS030304 developmental biology
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Catalysis in glycine N-methyltransferase: testing the electrostatic stabilization and compression hypothesis.

2006

Glycine N-methyltransferase (GNMT) is an S-adenosyl-l-methionine dependent enzyme that catalyzes glycine transformation to sarcosine. Here, we present a hybrid quantum mechanics/molecular mechanics (QM/MM) computational study of the reaction compared to the counterpart process in water. The process takes place through an SN2 mechanism in both media with a transition state in which the transferring methyl group is placed in between the donor (SAM) and the acceptor (the amine group of glycine). Comparative analysis of structural, electrostatic, and electronic characteristics of the in-solution and enzymatic transition states allows us to get a deeper insight into the origins of the enzyme's c…

S-AdenosylmethionineSarcosinebiologyChemistryStereochemistryHydrogen bondStatic ElectricityActive siteGlycine N-MethyltransferaseBiochemistryAcceptorGlycine N-methyltransferaseTransition stateCatalysischemistry.chemical_compoundModels ChemicalGNMTbiology.proteinMethyl groupBiochemistry
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Expanding the chemical scope of RNA:methyltransferases to site-specific alkynylation of RNA for click labeling.

2010

This work identifies the combination of enzymatic transfer and click labeling as an efficient method for the site-specific tagging of RNA molecules for biophysical studies. A double-activated analog of the ubiquitous co-substrate S-adenosyl-l-methionine was employed to enzymatically transfer a five carbon chain containing a terminal alkynyl moiety onto RNA. The tRNA:methyltransferase Trm1 transferred the extended alkynyl moiety to its natural target, the N2 of guanosine 26 in tRNA(Phe). LC/MS and LC/MS/MS techniques were used to detect and characterize the modified nucleoside as well as its cycloaddition product with a fluorescent azide. The latter resulted from a labeling reaction via Cu(I…

S-AdenosylmethioninetRNA MethyltransferasesBase SequenceStereochemistryMolecular Sequence DataGuanosineRNAFluorescence correlation spectroscopyBiologyTRNA Methyltransferaseschemistry.chemical_compoundRNA Transfer PheSpectrometry FluorescencechemistryBiochemistryAlkynesTransfer RNASynthetic Biology and ChemistryGeneticsClick chemistryMoietyClick ChemistryAzideOrganic ChemicalsFluorescent DyesNucleic acids research
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Site specificity of pea histone acetyltransferase B in vitro.

1993

Histone acetyltransferase B from pea embryonic axes has been purified approximately 300-fold by a combination of chromatographic procedures, including affinity chromatography on histone-agarose. The enzyme preparation has been used for the in vitro transfer of acetyl groups from [1-14C]acetyl-CoA to non-acetylated pea histone H4. Up to three acetyl groups can be introduced into the histone. The resulting mono-, di-, and triacetylated H4 isoforms were separated and sequenced to determine the acetylated sites. Only sites 5, 12, and 16 were used by histone acetyltransferase B, but no clear preference among them was observed. The absence of modification of other potentially acetylatable sites i…

Saccharomyces cerevisiae ProteinsLysineMolecular Sequence DataBiochemistryChromatography AffinitySubstrate SpecificityHistone H4HistonesAffinity chromatographyAcetyltransferasesHistone octamerAmino Acid SequenceMolecular BiologyHistone AcetyltransferasesPlants MedicinalbiologyAcetylationFabaceaeCell BiologyHistone acetyltransferaseMolecular biologyIsoenzymesHistoneBiochemistryAcetylationHistone methyltransferasebiology.proteinElectrophoresis Polyacrylamide GelThe Journal of biological chemistry
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HAT1 and HAT2 Proteins Are Components of a Yeast Nuclear Histone Acetyltransferase Enzyme Specific for Free Histone H4

1998

We have analyzed the histone acetyltransferase enzymes obtained from a series of yeast hat1, hat2, and gcn5 single mutants and hat1,hat2 and hat1,gcn5 double mutants. Extracts prepared from both hat1 and hat2 mutant strains specifically lack the following two histone acetyltransferase activities: the well known cytoplasmic type B enzyme and a free histone H4-specific histone acetyltransferase located in the nucleus. The catalytic subunits of both cytoplasmic and nuclear enzymes have identical molecular masses (42 kDa), the same as that of HAT1. However, the cytoplasmic complex has a molecular mass (150 kDa) greater than that of the nuclear complex (110 kDa). The possible functions of HAT1 a…

Saccharomyces cerevisiae ProteinsMolecular Sequence DataSaccharomyces cerevisiaeBiologyBiochemistryCatalysisSubstrate SpecificityHistonesHistone H4Histone H1AcetyltransferasesHistone H2AHistone octamerMolecular BiologyHistone AcetyltransferasesCell NucleusHistone AcetyltransferasesBase SequenceAcetylationCell BiologyHistone acetyltransferaseMolecular WeightPhenotypeOligodeoxyribonucleotidesBiochemistryMutagenesisHistone methyltransferasebiology.proteinHAT1Journal of Biological Chemistry
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The YJL185C, YLR376C and YJR129C genes of Saccharomyces cerevisiae are probably involved in regulation of the glyoxylate cycle

2006

The ER24 aci (acidification) mutant of Saccharomyces cerevisiae excreting protons in the absence of glucose was transformed with a multicopy yeast DNA plasmid library. Three different DNA fragments restored the wild-type phenotype termed Aci- because it does not acidify the complete glucose medium under the tested conditions. Molecular dissection of the transforming DNA fragments identified two multicopy suppressor genes YJL185C, YJR129C and one allelic YLR376C. Disruption of either of the three genes in wild-type yeast strain resulted in acidification of the medium (Aci+ phenotype) similarly to the original ER24 mutant. These data indicate the contribution of the ER24 gene product Ylr376Cp…

Saccharomyces cerevisiae ProteinsMutantSaccharomyces cerevisiaeGenes FungalGlyoxylate cycleAutophagy-Related ProteinsGlyoxylatesMethyltransferasesSaccharomyces cerevisiaeBiologyHydrogen-Ion Concentrationbiology.organism_classificationGeneral Biochemistry Genetics and Molecular BiologyYeastCulture MediaGene productchemistry.chemical_compoundPlasmidchemistryBiochemistryGenes SuppressorGeneDNAMetabolic Networks and Pathways
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