Search results for "Nucleic Acid Enzymes"

showing 3 items of 3 documents

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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Functional characterization of the human tRNA methyltransferases TRMT10A and TRMT10B

2020

Abstract The TRM10 family of methyltransferases is responsible for the N1-methylation of purines at position 9 of tRNAs in Archaea and Eukarya. The human genome encodes three TRM10-type enzymes, of which only the mitochondrial TRMT10C was previously characterized in detail, whereas the functional significance of the two presumably nuclear enzymes TRMT10A and TRMT10B remained unexplained. Here we show that TRMT10A is m1G9-specific and methylates a subset of nuclear-encoded tRNAs, whilst TRMT10B is the first m1A9-specific tRNA methyltransferase found in eukaryotes and is responsible for the modification of a single nuclear-encoded tRNA. Furthermore, we show that the lack of G9 methylation cau…

tRNA MethyltransferasesMethyltransferaseBase SequenceAcademicSubjects/SCI00010Nucleic Acid EnzymesTRNA MethyltransferaseRNAMethylationMethyltransferasesMitochondrionBiologyMethylationTRNA MethyltransferasesCell LineBiochemistryRNA TransferPurinesProtein BiosynthesisTransfer RNAProtein biosynthesisGeneticsHumans
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Identification of the 3-amino-3-carboxypropyl (acp) transferase enzyme responsible for acp3U formation at position 47 in Escherichia coli tRNAs

2019

AbstracttRNAs from all domains of life contain modified nucleotides. However, even for the experimentally most thoroughly characterized model organism Escherichia coli not all tRNA modification enzymes are known. In particular, no enzyme has been found yet for introducing the acp3U modification at position 47 in the variable loop of eight E. coli tRNAs. Here we identify the so far functionally uncharacterized YfiP protein as the SAM-dependent 3-amino-3-carboxypropyl transferase catalyzing this modification and thereby extend the list of known tRNA modification enzymes in E. coli. Similar to the Tsr3 enzymes that introduce acp modifications at U or m1Ψ nucleotides in rRNAs this protein conta…

chemistry.chemical_classificationTRNA modificationAlkyl and Aryl TransferasesNucleic Acid EnzymesNucleotidesRNASaccharomyces cerevisiaeBiologymedicine.disease_causePhenotypeEnzymechemistryBiochemistryBacterial ProteinsRNA TransferTransfer RNAGeneticsmedicineEscherichia coliTransferaseNucleic Acid ConformationNucleotideEscherichia coliNucleic Acids Research
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