Add to ORKGQuantitative structure–activity relationship model (QSAR models) is useful method for predicting antioxidant capacity of a molecule based on some chemical-physics properties. In our development of QSAR model are included 21 structural similar antioxidants. It is shown that taking into account some thermodynamical and thermochemical parameters of antioxidant and chemical activity is possible to generate fair antiradical QSAR models
A series of pyrrole derivatives and their antioxidant scavenging activities toward the superoxide an...
There are many diseases related to the excessive amount of free radical in human body produced by va...
This paper describes a quantitative structure – activity relationship study of the antiradical prope...
Quantitative structure–activity relationship model (QSAR models) is useful method for predicting ant...
oai:ojs2.journals.icapsr.com:article/2Chemical and biological properties of substances may be inferr...
The biological activity and the molecular structures are the two main aspects for the QSAR study of ...
In this work, we developed quantitative structure–activity relationships (QSAR) models for pre...
Quantitative structure-activity relationships (QSAR) are a widely used methodology allowing not only...
In this study, quantitative structure activity relationship (QSAR) models for the antioxidant activi...
Herbs are considered as a vital source of natural antioxidants that can neutralise free radicals whi...
An acceleration of free radical formation within human system exacerbates the incidence of several l...
Drug discovery takes many years and requires big budgets for research and development. QSAR in addit...
International audienceQuantum calculations (mainly DFT) and molecular dynamics are increasingly effe...
Phenolic acids are aromatic secondary plant metabolites that are widely spread throughout the plant ...
Reported discrepancies have confused the understanding of the molecular mechanisms of antioxidant re...
A series of pyrrole derivatives and their antioxidant scavenging activities toward the superoxide an...
There are many diseases related to the excessive amount of free radical in human body produced by va...
This paper describes a quantitative structure – activity relationship study of the antiradical prope...
Quantitative structure–activity relationship model (QSAR models) is useful method for predicting ant...
oai:ojs2.journals.icapsr.com:article/2Chemical and biological properties of substances may be inferr...
The biological activity and the molecular structures are the two main aspects for the QSAR study of ...
In this work, we developed quantitative structure–activity relationships (QSAR) models for pre...
Quantitative structure-activity relationships (QSAR) are a widely used methodology allowing not only...
In this study, quantitative structure activity relationship (QSAR) models for the antioxidant activi...
Herbs are considered as a vital source of natural antioxidants that can neutralise free radicals whi...
An acceleration of free radical formation within human system exacerbates the incidence of several l...
Drug discovery takes many years and requires big budgets for research and development. QSAR in addit...
International audienceQuantum calculations (mainly DFT) and molecular dynamics are increasingly effe...
Phenolic acids are aromatic secondary plant metabolites that are widely spread throughout the plant ...
Reported discrepancies have confused the understanding of the molecular mechanisms of antioxidant re...
A series of pyrrole derivatives and their antioxidant scavenging activities toward the superoxide an...
There are many diseases related to the excessive amount of free radical in human body produced by va...
This paper describes a quantitative structure – activity relationship study of the antiradical prope...