Author: Woo, Patrick C.Y.; Huang, Yi; Lau, Susanna K.P.; Tsoi, Hoiâ€wah; Yuen, Kwokâ€yung
Title: In Silico Analysis of ORF1ab in Coronavirus HKU1 Genome Reveals a Unique Putative Cleavage Site of Coronavirus HKU1 3Câ€Like Protease Cord-id: 09ots6oj Document date: 2013_11_14
ID: 09ots6oj
Snippet: Recently we have described the discovery and complete genome sequence of a novel coronavirus associated with pneumonia, coronavirus HKU1 (CoVâ€HKU1). In this study, a detailed in silico analysis of the ORF1ab, encoding the 7,182â€amino acid replicase polyprotein in the CoVâ€HKU1 genome showed that the replicase polyprotein of CoVâ€HKU1 is cleaved by its papainâ€like proteases and 3Câ€like protease (3CL(pro)) into 16 polypeptides homologous to the corresponding polypeptides in other coronav
Document: Recently we have described the discovery and complete genome sequence of a novel coronavirus associated with pneumonia, coronavirus HKU1 (CoVâ€HKU1). In this study, a detailed in silico analysis of the ORF1ab, encoding the 7,182â€amino acid replicase polyprotein in the CoVâ€HKU1 genome showed that the replicase polyprotein of CoVâ€HKU1 is cleaved by its papainâ€like proteases and 3Câ€like protease (3CL(pro)) into 16 polypeptides homologous to the corresponding polypeptides in other coronaviruses. Surprisingly, analysis of the putative cleavage sites of the 3CL(pro) revealed a unique putative cleavage site. In all known coronaviruses, the P1 positions at the cleavage sites of the 3CL(pro) are occupied by glutamine. This is also observed in CoVâ€HKU1, except for one site at the junction between nsp10 (helicase) and nsp11 (member of exonuclease family), where the P1 position is occupied by histidine. This amino acid substitution is due to a single nucleotide mutation in the CoVâ€HKU1 genome, CAG/A to CAT. This probably represents a novel cleavage site because the same mutation was consistently observed in CoVâ€HKU1 sequences from multiple specimens of different patients; the P2 and P1′â€P12′ positions of this cleavage site are consistent between CoVâ€HKU1 and other coronaviruses; and as the helicase is one of the most conserved proteins in coronaviruses, cleavage between nsp10 and nsp11 should be an essential step for the generation of the mature functional helicase. Experiments, including purification and Câ€terminal amino acid sequencing of the CoVâ€HKU1 helicase and transâ€cleavage assays of the CoVâ€HKU1 3CL(pro) will confirm the presence of this novel cleavage site.
Search related documents:
Co phrase search for related documents- adp ribose and adrp activity: 1, 2, 3, 4, 5, 6, 7, 8, 9
- adp ribose and adrp process: 1
Co phrase search for related documents, hyperlinks ordered by date