Sun Z, Ren K, Zhang X, Chen J, Jiang Z, Jiang J, Ji F, Ouyang X, Li L

The COVID-19 pandemic has led to worldwide efforts to understand the biological traits of the newly identified HCoV-19 virus. In this mass spectrometry (MS)-based study, we reveal that out of 21 possible glycosites in the HCoV-19 S protein, 20 are completely occupied by N-glycans, predominantly of the oligomannose type. All ...

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seven glycosylation sites in human angiotensin I converting enzyme 2 (hACE2) were found to be completely occupied, mainly by complex N-glycans. However, glycosylation did not directly contribute to the binding affinity between HCoV-19 S and hACE2. Additional post-translational modification (PTM) was identified, including multiple methylated sites in both proteins and multiple sites with hydroxylproline in hACE2. Refined structural models of HCoV-19 S and hACE2 were built by adding N-glycan and PTMs to recently published cryogenic electron microscopy (cryo-EM) structures. The PTM and glycan maps of HCoV-19 S and hACE2 provide additional structural details for studying the mechanisms underlying host attachment and the immune response of HCoV-19, as well as knowledge for developing desperately needed remedies and vaccines.

Date: Aug. 30, 2020

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