Title : ( Antioxidant activity of selenenamide-based mimic as a function of the aromatic thiols nucleophilicity, a DFT-SAPE model )
Authors: ramesh kheirabadi , Mohammad Izadyar ,Access to full-text not allowed by authors
Abstract
The mechanism of action of the selenenamide 1 as a mimic of the glutathione peroxidase (GPx) was investigated by the density functional theory. The solvent-assisted proton exchange procedure was applied to model the catalytic behavior and antioxidant activity of this mimic. To have an insight into the charge transfer effect, different aromatic thiols, including electron donating substituents on the phenyl ring were considered. The catalytic behavior of the selenenamide was modeled in a four-step mechanism, described by the oxidation of the mimic, the reduction of the obtained product, selenoxide, the reduction of the selenenylsulfide and dehydration of selenenic acid. On the basis of the activation parameters, the final step of the proposed mechanism is the rate determining states of the catalytic cycle. Turnover frequency (TOF) analysis showed that the electron donating groups at the para-position of the phenyl ring of the PhSH do not affect the catalytic activity of the selenenamide in contrast to p-methyl thiophenol which indicates the highest nucleophilicity. The evaluation of the electronic contribution of the various donating groups on the phenyl ring of the aromatic thiols shows that the antioxidant activity of the selenenamide sufficiently increases in the presence of the electron-donating substitutions. Finally, the charge transfer process at the rate-determining state was investigated based on the natural bond orbital analysis.
Keywords
, GPx mimic, Nucleophilicity, Catalytic activity, Turnover Frequency, Solvent assisted proton exchange, Donor-Acceptor@article{paperid:1068602,
author = {Kheirabadi, Ramesh and Izadyar, Mohammad},
title = {Antioxidant activity of selenenamide-based mimic as a function of the aromatic thiols nucleophilicity, a DFT-SAPE model},
journal = {Computational Biology and Chemistry},
year = {2018},
volume = {75},
number = {1},
month = {May},
issn = {1476-9271},
pages = {213--221},
numpages = {8},
keywords = {GPx mimic; Nucleophilicity; Catalytic activity; Turnover Frequency; Solvent assisted proton exchange; Donor-Acceptor},
}
%0 Journal Article
%T Antioxidant activity of selenenamide-based mimic as a function of the aromatic thiols nucleophilicity, a DFT-SAPE model
%A Kheirabadi, Ramesh
%A Izadyar, Mohammad
%J Computational Biology and Chemistry
%@ 1476-9271
%D 2018