id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
cord-102920-z5q3wo7v	Sang, Eric R.	Integrate Structural Analysis, Isoform Diversity, and Interferon-Inductive Propensity of ACE2 to Refine SARS-CoV2 Susceptibility Prediction in Vertebrates	2020-06-28		.txt	text/plain	6437	316	44	Previous reports using structural analysis of the viral spike protein (S) binding its cell receptor of angiotensin-converting enzyme 2 (ACE2), indicate a broad SARS-CoV2 susceptibility in wild and particularly domestic animals. In addition to showing a broad susceptibility potential across mammalian species based on structural analysis, our results also reveal that domestic animals including dogs, pigs, cattle and goats may evolve ACE2-related immunogenetic diversity to restrict SARS-CoV2 infections. Along with showing a broad susceptibility potential across mammalian species based on structural analysis [26] [27] [28] , our results further reveal that domestic animals including dogs, pigs, cattle and goats may evolve previously unexamined immunogenetic diversity to restrict SARS-CoV2 infections. In addition to structural analysis of simulated S-RBD-ACE2 interaction, we propose that several immunogenetic factors, including the evolution of S-binding-void ACE2 isoforms in some domestic animals, the species-specific IFN system, and epigenetic regulation of IFN-stimulated property of host ACE2 genes, contribute to the viral susceptibility and the development of COVID-19-like symptoms in certain animal species [15, 38, 39, 49] .	./cache/cord-102920-z5q3wo7v.txt	./txt/cord-102920-z5q3wo7v.txt