Title : ( Effects of the deglycosylation on the structure and activity of chloroperoxidase: Molecular dynamics simulation approach )
Authors: Maryam Ghorbani , Mohammad Reza Housaindokht , M. R. Bozrgmehr ,Access to full-text not allowed by authors
Abstract
Chloroperoxidase (CPO) is a versatile fungal heme-thiolate protein that catalyzes a variety of one electron and two-electron oxidations. Chloroperoxidase is a versatile fungal heme-thiolate protein that catalyzes a variety of oxidations. CPO enzyme contains thirteen sugars, including five N-acetyl D-glucosamines (NAG) and eight mannoses (MAN), which are attached to the protein via the glycosidic bonds. Removal of the sugars from CPO leads to increase the hydrophobicity of the enzyme, as well as the reduction of the alkylation reactions. However, due to the lack of the proper force field for the sugars, they are ignored in the theoretical studies. The present study aims to assess the effects of the sugar segments on the structure and activity of CPO through the simulation of the halo structure and the structures without the sugar segment. Despite the difficulty of the process and being time-consuming, the suitable force field is introduced successfully for the sugars. According to molecular dynamics simulation (MD), seven channels and fifteen cavities are identified in the CPO structure. Two of the channels provide the substrate access to the active site. The MD simulation results reveal that the removal of NAG decreases the number of the cavities from fifteen to eleven. Besides, the removal of NAG is associated with removing the channel providing the substrate access. The number of the cavities decreases from fifteen to fourteen through the removal of MAN; however, channel providing the substrate access to the active site is partly preserved. The MD simulation results indicate that the structures without the sugar units are more compact in comparison with the halo structures. The removal of the sugar segments induces the significant changes in the flexibility of the residues that affect the catalytic activity of the enzyme. As a result, the enzyme activities, such as the oxidation, alkylation, halogenation, and epoxidation cannot occur when the sugar segments of the enzyme are removed.
Keywords
ChloroperoxidaseActivityGromacsForce fieldSimulationCavity@article{paperid:1078905,
author = {Ghorbani , Maryam and Housaindokht, Mohammad Reza and M. R. Bozrgmehr},
title = {Effects of the deglycosylation on the structure and activity of chloroperoxidase: Molecular dynamics simulation approach},
journal = {Journal of Molecular Graphics and Modelling},
year = {2020},
volume = {97},
month = {June},
issn = {1093-3263},
pages = {107570--107578},
numpages = {8},
keywords = {ChloroperoxidaseActivityGromacsForce fieldSimulationCavity},
}
%0 Journal Article
%T Effects of the deglycosylation on the structure and activity of chloroperoxidase: Molecular dynamics simulation approach
%A Ghorbani , Maryam
%A Housaindokht, Mohammad Reza
%A M. R. Bozrgmehr
%J Journal of Molecular Graphics and Modelling
%@ 1093-3263
%D 2020