Author: Hong Zhou; Xing Chen; Tao Hu; Juan Li; Hao Song; Yanran Liu; Peihan Wang; Di Liu; Jing Yang; Edward C. Holmes; Alice C. Hughes; Yuhai Bi; Weifeng Shi
Title: A novel bat coronavirus reveals natural insertions at the S1/S2 cleavage site of the Spike protein and a possible recombinant origin of HCoV-19 Document date: 2020_3_5
ID: dbowa5bt_7
Snippet: RmYN02 exhibited far lower sequence identity to HCoV-19 in the S gene (nucleotide 71.8%, 115 amino acid 72.9%), compared to 97.4% amino acid identity between RaTG13 and HCoV-19 116 (Fig. 1a) . Strikingly, RmYN02 only possessed 62.4% amino acid identity to HCoV-19 in the RBD, 117.....
Document: RmYN02 exhibited far lower sequence identity to HCoV-19 in the S gene (nucleotide 71.8%, 115 amino acid 72.9%), compared to 97.4% amino acid identity between RaTG13 and HCoV-19 116 (Fig. 1a) . Strikingly, RmYN02 only possessed 62.4% amino acid identity to HCoV-19 in the RBD, 117
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