id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
cord-337032-s4g4g80w	Gupta, Manoj Kumar	In-silico approaches to detect inhibitors of the human severe acute respiratory syndrome coronavirus envelope protein ion channel	2020-04-15		.txt	text/plain	3964	191	52	Considering this, in the present study, authors employed computational approaches for studying the structure as well as function of the human 'SARS-CoV2 E' protein as well as its interaction with various phytochemicals. Result obtained revealed that α-helix and loops present in this protein experience random movement under optimal condition, which in turn modulate ion channel activity; thereby aiding the pathogenesis caused via SARS-CoV2 in human and other vertebrates. By considering the above information, in the present study, authors employed computational approach for identifying the best possible structure of the 'SARS-CoV2 E' protein present in the PDB database to understand its structure and function as well as its behaviour towards various phytochemicals. Subsequently, molecular docking of the 'SARS-CoV2 E' protein with ligands having 250 conformations using the AutoDock tool revealed that the best ten phytochemicals with minimal binding energy are TIP006452 (Belachinal), TIP005365 (Macaflavanone E), TIP003272 (Vibsanol B), TIP003258 (14 R Ã ,15-Epoxyvibsanin C), TIP005363 (Macaflavanone C), TIP000749 (Luzonoid D), TIP008605 (Grossamide K), TIP009461 ((-)-Blestriarene C), TIP005366 (Macaflavanone F) and TIP005783 (Dolichosterone).	./cache/cord-337032-s4g4g80w.txt	./txt/cord-337032-s4g4g80w.txt