Search results for "Enzyme Structure"

showing 3 items of 13 documents

Crystal Structure of Perakine Reductase, Founding Member of a Novel Aldo-Keto Reductase (AKR) Subfamily That Undergoes Unique Conformational Changes …

2012

Perakine reductase (PR) catalyzes the NADPH-dependent reduction of the aldehyde perakine to yield the alcohol raucaffrinoline in the biosynthetic pathway of ajmaline in Rauvolfia, a key step in indole alkaloid biosynthesis. Sequence alignment shows that PR is the founder of the new AKR13D subfamily and is designated AKR13D1. The x-ray structure of methylated His(6)-PR was solved to 2.31 Å. However, the active site of PR was blocked by the connected parts of the neighbor symmetric molecule in the crystal. To break the interactions and obtain the enzyme-ligand complexes, the A213W mutant was generated. The atomic structure of His(6)-PR-A213W complex with NADPH was determined at 1.77 Å. Overal…

Models Molecularendocrine systemConformational changeProtein ConformationStereochemistryReductaseCrystallography X-Raycomplex mixturesMethylationBiochemistryProtein Structure SecondaryRauwolfiaEvolution MolecularProtein structurehemic and lymphatic diseasesheterocyclic compoundsMolecular BiologyAldo-keto reductaseCofactor bindingbiologyChemistryorganic chemicalsActive siteCell BiologyEnzyme structureAlcohol OxidoreductasesCrystallographyProtein Structure and Foldingbiology.proteinNADPH bindingSequence AlignmentNADPProtein BindingJournal of Biological Chemistry
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Preorganization and reorganization as related factors in enzyme catalysis: the chorismate mutase case.

2003

In this paper a deeper insight into the chorismate-to prephenate-rearrangement, catalyzed by Bacillus subtilis chorismate mutase, is provided by means of a combination of statistical quantum mechanics/molecular mechanics simulation methods and hybrid potential energy surface exploration techniques. The main aim of this work is to present an estimation of the preorganization and reorganization terms of the enzyme catalytic rate enhancement. To analyze the first of these, we have studied different conformational equilibria of chorismate in aqueous solution and in the enzyme active site. Our conclusion is that chorismate mutase preferentially binds the reactive conformer of the substrate--that…

biologyChemical PhenomenaChemistryStereochemistryChemistry PhysicalProtein ConformationOrganic ChemistryActive siteSubstrate (chemistry)General ChemistryEnzyme structureCatalysisEnzyme catalysisSolutionsMolecular dynamicsComputational chemistryPotential energy surfacebiology.proteinChorismate mutaseElectrochemistryConformational isomerismBacillus subtilisChorismate MutaseChemistry (Weinheim an der Bergstrasse, Germany)
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Coupling of the guanosine glycosidic bond conformation and the ribonucleotide cleavage reaction: implications for barnase catalysis.

2007

To examine the possible relationship of guanine-dependent GpA conformations with ribonucleotide cleavage, two potential of mean force (PMF) calculations were performed in aqueous solution. In the first calculation, the guanosine glycosidic (Gχ) angle was used as the reaction coordinate, and computations were performed on two GpA ionic species: protonated (neutral) or deprotonated (negatively charged) guanosine ribose O2 ′. Similar energetic profiles featuring two minima corresponding to the anti and syn Gχ regions were obtained for both ionic forms. For both forms the anti conformation was more stable than the syn, and barriers of ∼4 kcal/mol were obtained for the anti → syn transition. Str…

chemistry.chemical_classificationRibonucleotideGuanosineStereochemistryProtein ConformationHydrolysisGuanosineGlycosidic bondRibonucleotidesBiochemistryEnzyme structureReaction coordinatechemistry.chemical_compoundDeprotonationRibonucleaseschemistryBacterial ProteinsStructural BiologyAlkane stereochemistryRiboseThermodynamicsGlycosidesMolecular BiologyProteins
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