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Apparent kinetic properties of soil phosphomonoesterase and β‐glucosidase are disparately influenced by pH

Chongyang Li, Andrew J. Margenot

2021Soil Science Society of America Journal14 citationsDOI

Abstract

Abstract Extracellular enzymes catalyze organic matter transformations in soils, yet the study of soil enzymes does not typically evaluate how enzyme kinetic properties that govern activity in situ may shift with environmental parameters such as pH. To test this, we quantified changes in apparent kinetic properties (maximum catalysis rate [ App V max ] and substrate concentration that produces 50% of V max [ App K m ]) of soil phosphomonoesterase (PME) and β‐glucosidase (BG) as a function of pH by using dual gradients of buffer pH (3–12) and substrate concentrations in a selected set of diverse soils. A third kinetic property, apparent specificity constant ( App K a = App V max / App K m ) was also evaluated as a function of pH. Results indicated widely differing pH optima of soil PME and BG App V max and App K m , decoupling of which entailed unpredictable pH optima of App K a . Additionally, changes in soil enzyme activity with pH may not be driven by shifts in the specificity constant because pH– App V max relationships are largely unrelated to co‐occurring changes in App K a . These results invalidate the assumption that K m of a soil enzyme is constant across pH and emphasize the importance of assaying soil enzyme activities at sufficiently high (5 × K m ) substrate concentrations at a given pH to avoid the mischaracterizing pH optima.

Topics & Concepts

ChemistryPhosphomonoesteraseSubstrate (aquarium)Soil waterEnzymeSoil pHPhosphataseBiochemistryEcologyBiologyPesticide and Herbicide Environmental StudiesPhytase and its ApplicationsPharmaceutical and Antibiotic Environmental Impacts
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