Molecular Modelling of Antioxidant Agent by QSAR Study of Caffeic Acid Derivatives
Date
2020-05-26Author
RAHMAWATI, Istiqomah
AMINI, Helda Wika
DARMAYANTI, Rizki Fitria
Metadata
Show full item recordAbstract
Molecular modeling using Quantitative Structure and Activity Relationship (QSAR)
has been performed on caffeic acid derivatives which is previously studied as an effective
antioxidant agent. This research focuses on a set of experimentally IC50 value data of 4 caffeic
acid derivatives. The mathematical method (i.e., multilinear regression calculation) was used to
build the QSAR model. QSAR analysis was employed on fitting subset using log (1/IC
) as a
dependent variable and atomic net charges aromatic carbons, dipole moment and partition
coefficient in n-octanol/water as independent variables. The PM3 method was used to calculate
the quantum chemical descriptors, chosen to represent the electronic descriptors of molecular
structures. The relationship between log (1/IC50) and the descriptors was described by resulted
in the QSAR model. The resulted QSAR model for caffeic acid derivatives as an antioxidant is
presented below:
-7.858+1.149dipol+0.485logP-61.68C5
R=1; R
50
=0.999; SE=0.008; F=342
QSAR model for caffeic acid derivatives showed the enhancement of antioxidant activity due
to the decrease of electronic properties (derived from the dipole moment value and C5 atomic
charge), Log P representing hydrophobicity did not show a significant effect on antioxidant
activity while increasing the chain length of antioxidant molecules indicate an increase in steric
hindrance causes a decrease in antioxidant activity. The calculated PRESS (Predicted Residual
Error Sum of Square) value was 6.69E-05, which indicates the calculated log (1/IC50) using
QSAR Hansch Model of caffeic acid derivatives is similar with experimental data.
Collections
- LSP-Jurnal Ilmiah Dosen [7301]