%0 Journal Article
%T The Roles of pH in the Modification of Wild-Type Recombinant <i>Phlebia radiata</i> Manganese Peroxidase 3 Activities and Stability of Secondary Structures
%A Usenobong F. Ufot
%A Imeh J. Okop
%A Mfoniso P. Uko
%A Imekan I. Akpan
%A Khasim Cali
%A Monday I. Akpanabiatu
%J American Journal of Molecular Biology
%P 158-180
%@ 2161-6663
%D 2022
%I Scientific Research Publishing
%R 10.4236/ajmb.2022.124014
%X This investigation is aimed at understanding the specific role of pH and calcium
ions on the activity and stability of wild-type
recombinant <i>Phlebia radiata</i> manganese
peroxidase 3 (rPr-MnP3).
The pH-dependent cycle of reactions for rPr-MnP3 was evaluated by investigating
time-dependent changes in the activity and electronic absorption spectrum of rPr-MnP3.The rPr-MnP3 had maximum efficacy (kcat/Km) for Mn (II)
oxidation at pH 5.0 and 3.0 for oxidation of ABTS. Raising the pH of a solution
of resting rPr-MnP3 from pH 6.7 (form XH) to pH 8.6 (form X<sup><span style=\"white-space:nowrap;\">&amp;minus;</span></sup>),
a rapid alkaline transition occurs. Leaving the X<sup><span style=\"white-space:nowrap;\">&amp;minus;</span></sup> form of the enzyme
at pH 8.6, it slowly becomes converted to a third form of the enzyme Y<sup><span style=\"white-space:nowrap;\">&amp;minus;</span></sup>,
which returned to the original XH form of the enzyme at pH 6.7. Recovery of form
XH from form Y<sup><span style=\"white-space:nowrap;\">&amp;minus;</span></sup> occurred through an intermediate Z form. The pH inactivation
of rPr-MnP3 followed first-order kinetics. The rate of formation of XH from Z is
pH-dependent and biphasic in nature, with measured rate constants (k) = 0.25 min<sup><span style=\"white-space:nowrap;\">&amp;minus;</span>1</sup>,
and half-life (T<sub>1/2</sub>) = 2.8 min. The pH-dependent properties observed
may be indicative of a greater degree of conformational flexibility at rPr-MnP3
active site due to disruption of the haem-linked hydrogen-bonding network in the
distal haem pocket. Calcium ions were observed
to significantly stabilised the enzyme¡¯s spectral features and reduce the loss of
activity during the alkaline pH transition. Calcium ions enhance the recovery of
the initial activity but cannot prevent
the final time-dependent
irreversible denaturation and aggregation.
%K &lt
%K i&gt
%K Phlebia radiata&lt
%K /i&gt
%K Manganese Peroxidase
%K pH-Dependence
%K Inactivation
%K Conformation
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=120437