An Irreversible and Kinetically Controlled Process: Thermal Induced Denaturation of <Emphasis Type="SmallCaps">L</Emphasis>-2-Hydroxyisocaproate Dehydrogenase from <Emphasis Type="Italic">Lactobacillus confusus</Emphasis> |
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Authors: | Lide Bao Shivani Chatterjee Sabine Lohmer Dietmar Schomburg |
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Institution: | (1) Institute for Biochemistry, University of Cologne, Zuelpicher Str. 47, 50674 Cologne, Germany |
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Abstract: | The thermal denaturation of Lactobacillus confusus
l-2-Hydroxyisocaproate Dehydrogenase (l-HicDH) has been studied by Differential Scanning Calorimetry (DSC). The stability of this enzyme has been investigated at
different pH conditions. The results of this study indicate that the thermal denaturation of this enzyme is irreversible and
the T
m
is dependent on the scan-rate, which suggests that the denaturation process of l-HicDH is kinetically determined. The heat capacity function of l-HicDH shows a single peak with the T
m
values between 52.14°C and 55.89°C at pH 7.0 at different scan rates. These results indicate that the whole l-HicDH could unfold as a single cooperative unit, and intersubunit interactions of this homotetrameric enzyme must play a
significant role in the stabilization of the whole enzyme. The rate constant of the unfolding is analyzed as a first order
kinetic constant with the Arrhenius equation, and the activation energy has been calculated. The variation of the activation
energy values obtained with different methods does not support the validity of the one-step irreversible model. The denaturation
pathway was described by a three-state model, N → U → F, in which the dissociation of the tetramer takes place as an irreversible
step before the irreversible unfolding of the monomers. The calorimetric enthalpy associated with the irreversible dissociation
and the calorimetric enthalpy associated with the unfolding of the monomer were obtained from the best fitting procedure.
Thermal unfolding of l-HicDH was also studied using Circular Dichroism (CD) spectroscopy. Both methods yielded comparable values. |
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Keywords: | l-HicDH" target="_blank">l-HicDH Differential Scanning Calorimetry (DSC) thermal denaturation transition temperature enthalpy activation energy |
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