From Germs to Mammals in Aqua
CiteScore: 0.7
SCOPUS 2021
UN SDG
Upcoming Event
Genetics of Aquatic Organisms 2022, Vol 6, Num, 2     (Pages: GA487)

An In-silico Approach for Identifying Phytochemical Inhibitors Against Nervous Necrosis Virus (NNV) in Asian Sea Bass by Targeting Capsid Protein

Sk Injamamaul Islam 1 ,Moslema Jahan Mou 2 ,Saloa Sanjida 3 ,Sarower Mahfuj 1

1 Chulalongkorn University, Faculty of Veterinary Science and Technology, Department of Veterinary Microbiology, Bangkok-10330, Thailand
2 University of Rajshahi, Faculty of Life and Earth Science, Department of Genetic Engineering & Biotechnology, Rajshahi-6205, Bangladesh
3 Jashore University of Science and Technology, Faculty of Applied Science and Technology, Department of Environmental Science and Technology, Jashore-7408, Bangladesh
DOI : 10.4194/GA487 Viewed : 310 - Downloaded : 863 Nervous necrosis virus (NNV) is a devastating infectious pathogen for fish species with 100% mortality. To date, no specific drugs or vaccines have been developed that can prevent infections in aquaculture caused by NNV. It has been found that the NNV utilizes capsid protein to enter into the host cell in Asian sea bass and cause disease. In this study, we evaluated the inhibitory potential of Allium sativum compounds that have been reported to show antiviral activity against various pathogens. The capsid protein was modeled and the binding affinity of all the compounds was calculated with the docking approach and top 2 (PubChem CID: 122130381 and CID 12303662) inhibitory compounds were selected for further ADMET properties and DFT analysis. Both the geometry optimization and redocking of the two inhibitory compounds (PubChem CID: 122130381 and CID 12303662) showed a strong binding affinity of -8.2 and -8.0 kcal/mol, respectively with the capsid protein. The molecular dynamic simulation approach further validated the capsid protein – CID: 122130381 and capsid protein- CID 12303662 complex stability. In conclusion, this study deduces that these Allium sativum phytochemicals might act as significant inhibitors of the NNV in sea bass, which can be further validated experimentally. Keywords : Capsid Protein NNV Allium sativum Molecular docking and ADMET HOMO and LUMO