Sequence Analysis Indicates that 2019-nCoV Virus Contains a Putative Furin Cleavage Site at the Boundary of S1 and S2 Domains of Spike Protein
The infectious 2019-nCoV virus, which caused the current novel coronavirus pneumonia epidemic outbreak, possesses a unique 4-Amino Acid insert at the boundary of the two subdomains (S1 and S2) of Spike protein based on multiple protein sequence alignment with the large SARS and SARS-related virus family. Using Bat CoV_RaTG13 Spike protein as reference (sharing 97% aa identity) the 4-amino acid insert can be identified as PRRA (AA position 681-684). The effect of the 4-AA insertion is the presence of a furin signature sequence motif (PRRARSV) at the boundary of S1 and S2 domains of spike protein. This sequence motif consists the required Arg residue for P1 and P4 position of Furin site. In addition, it contains Arg at P3 site as well as Ser at P1’ site of furin motif. This sequence motif matches Aerolysin furin site in FurinDB and was predicted to be moderately strong (score 0.62) by ProP, a protease cleavage site prediction program. This finding suggests that the infectious 2019-nCoV virus, unlike SARS viruses, may be processed via cellular furin recognition and cleavage of the spike protein before host cell membrane fusion and entry. This putative furin site in spike protein of 2019-nCoV virus, if proven to be functional, suggests the potential of looking into agents inhibiting furin as therapeutic mean for the treatment of the novel coronavirus pneumonia.