Microcalorimetric studies of the interactions of lysozyme with immobilized metal ions: Effects of ion, pH value, and salt concentration

Fu Yung Lin, Wen Yih Chen, Lung Ching Sang

Research output: Contribution to journalArticlepeer-review

43 Scopus citations

Abstract

This study extends previous research on the interaction of biomaterials with immobilized Cu(II) by isothermal titration calorimetry (ITC) on Fe(III). The difference of the binding behavior of protein with that of the immobilized metal ions is also discussed. For the immobilized Fe(III), ITC results show that the adsorption enthalpy at a constant pH value decreased as the NaCl concentration increased and also decreased with the pH values at constant NaCl concentrations. The adsorption enthalpy become negative under higher pH values or higher salt concentrations indicating the adsorption process is partly driven by the enthalpy. The enthalpy of lysozyme with Fe(III) is higher than that with Cu(II) implying that the heat required for the dehydration of Cu(II) is lower than for the dehydration of Fe(III) and/or that the heat generated from the formation of the coordination with Cu(II) is higher than with Fe(III). In addition, the comparison of different immobilized metal ions corresponding to the equilibrium binding affinity suggests that the binding force of lysozyme with Cu(II) is higher than with Fe(III). This study presents the chemical differences between the binding affinity and the adsorption enthalpy of lysozyme interacting with the immobilized metal ions. The binding and thermodynamic data presented in this study elucidate the mechanism and process of lysozyme binding with immobilized metal ions. In addition, the thermodynamic characteristic functions provide valuable information enabling a more thorough understanding of protein adsorption at the immobilized metal ion affinity surface.

Original languageEnglish
Pages (from-to)373-379
Number of pages7
JournalJournal of Colloid and Interface Science
Volume214
Issue number2
DOIs
StatePublished - 15 Jun 1999

Keywords

  • Adsorption
  • IMA
  • Immobilized metal ion affinity
  • Lysozyme
  • Microcalorimetry

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