The inhibitors of 5-LOX control the overproduction of pro-inflammatory mediatorsknownas leukotrienes
(LTs) and thus have therapeutic relevance in the treatment of various diseases like asthma, rheumatoid
arthritis, inflammatory bowel disease and certain types of cancers. This has increased the search for efficient
therapeutic agents for protein 5-LOX and this process is now primarily based on QSAR. In this study,
wehave developed four different quantitative structure and 5-LOX inhibition activity relationship models
of benzoquinone derivative by exploiting CoMFA, RF, SVM, and MLR chemometric methods. Performance
of the QSAR models was measured by using cross-validation technique as well as through the external
test set prediction. RF model outperforms all other models. SVM and MLR models failed due to the poor
performance of the external test set prediction. CoMFA model, which shows relatively good performance
was used to explore the essential structural regions where the modification was necessary to design a
novel scaffold with improved activity. Moreover, molecular docking of all the derivatives to the binding
site of 5-LOX was done to show their binding mode and to identify critical interacting residues inside the
active site of 5-LOX. The docking result confirms the stability and rationality of the CoMFA model.
電話: 010-87293157
地址: 北京市豐臺(tái)區(qū)洋橋70號(hào)
版權(quán)所有 @ 2023 中國(guó)食品雜志社 京公網(wǎng)安備11010602060050號(hào) 京ICP備14033398號(hào)-2