A salt bridge of the C‐terminal carboxyl group regulates PHPT1 substrate affinity and catalytic activity
Zavala E, Dansereau S, Burke M, Lipchock J, Maschietto F, Batista V, Loria J. A salt bridge of the C‐terminal carboxyl group regulates PHPT1 substrate affinity and catalytic activity. Protein Science 2024, 33: e5009. PMID: 38747379, PMCID: PMC11094782, DOI: 10.1002/pro.5009.Peer-Reviewed Original ResearchMeSH KeywordsCatalytic DomainHumansMolecular Dynamics SimulationNuclear Magnetic Resonance, BiomolecularPhosphoric Monoester HydrolasesSubstrate SpecificityConceptsCatalytic activityPhenylphosphonic acidAnalysis of molecular dynamics trajectoriesNMR chemical shiftsSalt bridgesMolecular dynamics trajectoriesC-terminal carboxyl groupChemical shiftsCombination of solution NMRMolecular dynamicsGuanidinium moietyCarboxyl groupsPara-nitrophenylphosphateSolution NMRActive site inhibitorsHistidine phosphataseActive siteElectrostatic interactionsDynamics trajectoriesEnzymatic functionC-terminusGlycine residuesSubstrate affinityBiochemical experimentsBinding affinity