Author: Gao, Feng; Ou, Hong-Yu; Chen, Ling-Ling; Zheng, Wen-Xin; Zhang, Chun-Ting
Title: Prediction of proteinase cleavage sites in polyproteins of coronaviruses and its applications in analyzing SARSâ€CoV genomes Cord-id: birxl9gz Document date: 2003_10_23
ID: birxl9gz
Snippet: Recently, we have developed a coronavirusâ€specific geneâ€finding system, ZCURVE_CoV 1.0. In this paper, the system is further improved by taking the prediction of cleavage sites of viral proteinases in polyproteins into account. The cleavage sites of the 3Câ€like proteinase and papainâ€like proteinase are highly conserved. Based on the method of traditional positional weight matrix trained by the peptides around cleavage sites, the present method also sufficiently considers the length conse
Document: Recently, we have developed a coronavirusâ€specific geneâ€finding system, ZCURVE_CoV 1.0. In this paper, the system is further improved by taking the prediction of cleavage sites of viral proteinases in polyproteins into account. The cleavage sites of the 3Câ€like proteinase and papainâ€like proteinase are highly conserved. Based on the method of traditional positional weight matrix trained by the peptides around cleavage sites, the present method also sufficiently considers the length conservation of nonâ€structural proteins cleaved by the 3Câ€like proteinase and papainâ€like proteinase to reduce the false positive prediction rate. The improved system, ZCURVE_CoV 2.0, has been run for each of the 24 completely sequenced coronavirus genomes in GenBank. Consequently, all the nonâ€structural proteins in the 24 genomes are accurately predicted. Compared with known annotations, the performance of the present method is satisfactory. The software ZCURVE_CoV 2.0 is freely available at http://tubic.tju.edu.cn/sars/.
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