Engineering Enzyme Stability and Resistance to an Organic Cosolvent by Modification of Residues in the Access Tunnel - Concepedia

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Engineering Enzyme Stability and Resistance to an Organic Cosolvent by Modification of Residues in the Access Tunnel

122

Citations

26

References

2013

Year

Táňa Koudeláková, Radka Chaloupková, Jan Brezovský, Zbyněk Prokop, Eva Šebestová, Martin Hesseler, Morteza Khabiri, Maryia Plevaka, Daryna Kulik, Ivana Kutá Smatanová,

Angewandte Chemie International Edition

EngineeringMolecular BiologyAnalytical UltracentrifugationEnzyme StabilityEnzyme ImmobilizationMolecular DynamicsAccess TunnelProtein FoldingBiochemical EngineeringProtein X-ray CrystallographyStructure-function Enzyme KineticsBiochemistryBiocatalysisOrganic CosolventMolecular EngineeringMolecular ModelingStructural BiologyBiomolecular EngineeringMelting TemperatureNatural SciencesEnzyme CatalysisBiotechnologyImmobilized EnzymeTunnel Residue PackingProtein EngineeringMolecular Biophysics

Abstract

Mutations targeting as few as four residues lining the access tunnel extended the half-life of an enzyme in 40 % dimethyl sulfoxide from minutes to weeks and increased its melting temperature by 19 °C. Protein crystallography and molecular dynamics revealed that the tunnel residue packing is a key determinant of protein stability and the active-site accessibility for cosolvent molecules (red dots).

References

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