About: The 3C‐like protease of the severe acute respiratory syndrome (SARS) coronavirus has a C‐terminal extra domain in addition to the chymotrypsin‐fold adopted by piconavirus 3C proteases hosting the complete catalytic machinery. Previously we identified the extra domain to be involved in enzyme dimerization which has been considered essential for the catalytic activity. In an initial attempt to map out the extra‐domain residues critical for dimerization, we have systematically generated 15 point mutations, five deletions and one triple mutation and subsequently characterized them by enzymatic assay, dynamic light scattering, CD and NMR spectroscopy. The results led to identification of four regions critical for enzyme dimerization. Interestingly, Asn214Ala mutant with a significant tendency to form a monomer still retained ≈ 30% activity, indicating that the relationship between the activity and dimerization might be very complex. Very surprisingly, two regions (one over Ser284–Thr285–Ile286 and another around Phe291) were discovered on which Ala‐mutations significantly increased the enzymatic activities. Based on this, a super‐active triple‐mutant STI/A with a 3.7‐fold activity enhancement was thus engineered by mutating residues Ser284, Thr285 and Ile286 to Ala. The dynamic light scattering, CD and NMR characterizations indicate that the wild‐type (WT) and STI/A mutant share similar structural and dimerization properties, thus implying that in addition to dimerization, the extra domain might have other mechanisms to regulate the catalytic machinery. We rationalized these results based on the enzyme structure and consequently observed an interesting picture: the majority of the dimerization‐critical residues plus Ser284–Thr285–Ile286 and Phe291 are clustered together to form a nano‐scale channel passing through the central region of the enzyme. We therefore speculate that this channel might play a role in relaying regulatory effects from the extra domain to the catalytic machinery.   Goto Sponge  NotDistinct  Permalink

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  • The 3C‐like protease of the severe acute respiratory syndrome (SARS) coronavirus has a C‐terminal extra domain in addition to the chymotrypsin‐fold adopted by piconavirus 3C proteases hosting the complete catalytic machinery. Previously we identified the extra domain to be involved in enzyme dimerization which has been considered essential for the catalytic activity. In an initial attempt to map out the extra‐domain residues critical for dimerization, we have systematically generated 15 point mutations, five deletions and one triple mutation and subsequently characterized them by enzymatic assay, dynamic light scattering, CD and NMR spectroscopy. The results led to identification of four regions critical for enzyme dimerization. Interestingly, Asn214Ala mutant with a significant tendency to form a monomer still retained ≈ 30% activity, indicating that the relationship between the activity and dimerization might be very complex. Very surprisingly, two regions (one over Ser284–Thr285–Ile286 and another around Phe291) were discovered on which Ala‐mutations significantly increased the enzymatic activities. Based on this, a super‐active triple‐mutant STI/A with a 3.7‐fold activity enhancement was thus engineered by mutating residues Ser284, Thr285 and Ile286 to Ala. The dynamic light scattering, CD and NMR characterizations indicate that the wild‐type (WT) and STI/A mutant share similar structural and dimerization properties, thus implying that in addition to dimerization, the extra domain might have other mechanisms to regulate the catalytic machinery. We rationalized these results based on the enzyme structure and consequently observed an interesting picture: the majority of the dimerization‐critical residues plus Ser284–Thr285–Ile286 and Phe291 are clustered together to form a nano‐scale channel passing through the central region of the enzyme. We therefore speculate that this channel might play a role in relaying regulatory effects from the extra domain to the catalytic machinery.
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