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Characterization of trans ‐ and cis ‐cleavage activity of the SARS coronavirus 3CL pro protease: basis for the in vitro screening of anti‐SARS drugs
Author(s) -
Lin Cheng-Wen,
Tsai Chang-Hai,
Tsai Fuu-Jen,
Chen Pei-Jer,
Lai Chien-Chen,
Wan Lei,
Chiu Hua-Hao,
Lin Kuan-Hsun
Publication year - 2004
Publication title -
febs letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.593
H-Index - 257
eISSN - 1873-3468
pISSN - 0014-5793
DOI - 10.1016/j.febslet.2004.08.017
Subject(s) - coronavirus , covid-19 , severe acute respiratory syndrome coronavirus , virology , protease , cleavage (geology) , betacoronavirus , in vitro , chemistry , biology , medicine , enzyme , biochemistry , paleontology , disease , pathology , fracture (geology) , infectious disease (medical specialty) , outbreak
Severe acute respiratory syndrome (SARS) has been globally reported. A novel coronavirus (CoV), SARS‐CoV, was identified as the etiological agent of the disease. SARS‐CoV 3C‐like protease (3CL pro ) mediates the proteolytic processing of replicase polypeptides 1a and 1ab into functional proteins, playing an important role in viral replication. In this study, we demonstrated the expression of the SARS‐CoV 3CL pro in Escherichia coli and Vero cells, and then characterized the in vitro trans ‐cleavage and the cell‐based cis ‐cleavage by the 3CL pro . Mutational analysis of the 3CL pro demonstrated the importance of His41, Cys145, and Glu166 in the substrate‐binding subsite S1 for keeping the proteolytic activity. In addition, alanine substitution of the cleavage substrates indicated that Gln‐ P1 in the substrates mainly determined the cleavage efficiency. Therefore, this study not only established the quantifiable and reliable assay for the in vitro and cell‐based measurement of the 3CL pro activity, but also characterized the molecular interaction of the SARS‐CoV 3CL pro with the substrates. The results will be useful for the rational development of the anti‐SARS drugs.