Author: Guruprasad, Lalitha
Title: Evolutionary relationships and sequenceâ€structure determinants in human SARS coronavirusâ€2 spike proteins for host receptor recognition Cord-id: 1dxu14b1 Document date: 2020_6_16
ID: 1dxu14b1
Snippet: Coronavirus disease 2019 (COVIDâ€19) is a pandemic infectious disease caused by novel Severe Acute Respiratory Syndrome coronavirusâ€2 (SARS CoVâ€2). The SARS CoVâ€2 is transmitted more rapidly and readily than SARS CoV. Both, SARS CoV and SARS CoVâ€2 via their glycosylated spike proteins recognize the human angiotensin converting enzymeâ€2 (ACEâ€2) receptor. We generated multiple sequence alignments and phylogenetic trees for representative spike proteins of SARS CoV and SARS CoVâ€2 fro
Document: Coronavirus disease 2019 (COVIDâ€19) is a pandemic infectious disease caused by novel Severe Acute Respiratory Syndrome coronavirusâ€2 (SARS CoVâ€2). The SARS CoVâ€2 is transmitted more rapidly and readily than SARS CoV. Both, SARS CoV and SARS CoVâ€2 via their glycosylated spike proteins recognize the human angiotensin converting enzymeâ€2 (ACEâ€2) receptor. We generated multiple sequence alignments and phylogenetic trees for representative spike proteins of SARS CoV and SARS CoVâ€2 from various host sources in order to analyze the specificity in SARS CoVâ€2 spike proteins required for causing infection in humans. Our results show that among the genomes analysed, two sequence regions in the Nâ€terminal domain (NTD); "MESEFR" and "SYLTPG" are specific to human SARS CoVâ€2. In the receptor binding domain (RBD), two sequence regions; "VGGNY" and "EIYQAGSTPCNGV" and a disulfide bridge connecting 480C and 488C in the extended loop are structural determinants for the recognition of human ACEâ€2 receptor. The complete genome analysis of representative SARS CoVs from bat, civet, human host sources and human SARS CoVâ€2 identified the bat genome (GenBank code: MN996532.1) as closest to the recent novel human SARS CoVâ€2 genomes. The bat SARS CoV genomes (GenBank codes: MG772933 and MG772934) are evolutionary intermediates in the mutagenesis progression towards becoming human SARS CoVâ€2. This article is protected by copyright. All rights reserved.
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