id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
cord-102383-m5ahicqb	Romano, Alessandra	Energy dynamics for systemic configurations of virus-host co-evolution	2020-05-15		.txt	text/plain	3776	190	43	A systems-thinking representation, based on stock-flow diagramming of virus-host interaction at the cellular level, is used here for the first time to simulate the system energy dynamics. A systems-thinking representation, based on stock-flow diagramming of virus-host interaction at the cellular level, is used here for the first time to simulate the system energy dynamics. A systems-thinking representation, based on stock-flow diagramming of virus-host interaction at the cellular level, is used here for the first time to simulate the system energy dynamics. Viral load and early addressing (in the first two days from infection) of leverage points are the most effective strategies on stock dynamics to minimize virion assembly and preserve host-cell bioenergetics. Viral load and early addressing (in the first two days from infection) of leverage points are the most effective strategies on stock dynamics to minimize virion assembly and preserve host-cell bioenergetics.	./cache/cord-102383-m5ahicqb.txt	./txt/cord-102383-m5ahicqb.txt