Search results for "Thermus aquaticus"

showing 2 items of 2 documents

Substrate promiscuity in DNA methyltransferase M.PvuII. A mechanistic insight

2012

M.PvuII is a DNA methyltransferase from the bacterium Proteus vulgaris that catalyzes methylation of cytosine at the N4 position. This enzyme also displays promiscuous activity catalyzing methylation of adenine at the N6 position. In this work we use QM/MM methods to investigate the reaction mechanism of this promiscuous activity. We found that N6 methylation in M.PvuII takes place by means of a stepwise mechanism in which deprotonation of the exocyclic amino group is followed by the methyl transfer. Deprotonation involves two residues of the active site, Ser53 and Asp96, while methylation takes place directly from the AdoMet cofactor to the target nitrogen atom. The same reaction mechanism…

MethyltransferaseDNA-Cytosine MethylasesDNA methyltransferaseM.PvuIIMolecular Dynamics SimulationBiochemistryDNA methyltransferaseMethylationSubstrate Specificitychemistry.chemical_compoundCytosineDeprotonationCatalytic DomainProteus vulgarisPhysical and Theoretical ChemistrybiologyThermus aquaticusAdenineOrganic ChemistryActive siteMethylationbiology.organism_classificationBiochemistrychemistryDNA methylationbiology.proteinCytosine
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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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