Abstract

Dengue virus (DENV) is one of the life threatening problems in tropical countries including India. During the last few decades, 50-100 million dengue viral infections were reported specially in Asia and Pacific region. In search of novel DENV inhibitor, the present study tried to correlate the DENV inhibitory data with a series of natural alkaloid lycorine derivatives. A statistically robust QSAR model is generated [ R = 0.944; = 0.865; Q 2 = 0.741; = 0.51593; = 0.826] with five descriptors such as GATS2c , ZMIC3 , T_N_O_7 , Quadrupole1 and nHsNH2 . The reliability of the model was confirmed by Golbraikh and Tropsha acceptable model criteria. The QSAR result suggests that the hydroxyl group as well as linear aliphatic at R 1 position is very important for the biological potency, whereas, amino and ether substituent at the R 2 is detrimental. The study also revealed that bulky esterification at the R 2 is not tolerable. Additionally, lead molecule showed good absorption, distribution, metabolism, excretion and toxicity (ADMET) properties. The findings may be useful to design potent lycorine-based anti-dengue compounds in future.