Ya-Wen Chou scite author profile

Ya-Wen Chou

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Structural basis for catalysis and ubiquitin recognition by theSevere acute respiratory syndrome coronaviruspapain-like protease

Chou¹,

Lai²,

Chen³

et al. 2014

Acta Crystallogr D Biol Crystallogr

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Papain-like protease (PLpro) is one of two cysteine proteases involved in the proteolytic processing of the polyproteins of Severe acute respiratory syndrome coronavirus (SARS-CoV). PLpro also shows significant in vitro deubiquitinating and de-ISGylating activities, although the detailed mechanism is still unclear. Here, the crystal structure of SARS-CoV PLpro C112S mutant in complex with ubiquitin (Ub) is reported at 1.4 Å resolution. The Ub core makes mostly hydrophilic interactions with PLpro, while the Leu-Arg-Gly-Gly C-terminus of Ub is located in the catalytic cleft of PLpro, mimicking the P4-P1 residues and providing the first atomic insights into its catalysis. One of the O atoms of the C-terminal Gly residue of Ub is located in the oxyanion hole consisting of the main-chain amides of residues 112 and 113. Mutations of residues in the PLpro-Ub interface lead to reduced catalytic activity, confirming their importance for Ub binding and/or catalysis. The structure also revealed an N-cyclohexyl-2-aminethanesulfonic acid molecule near the catalytic triad, and kinetic studies suggest that this binding site is also used by other PLpro inhibitors. Overall, the structure provides a foundation for understanding the molecular basis of coronaviral PLpro catalysis.

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Differential domain structure stability of the severe acute respiratory syndrome coronavirus papain-like protease

Chou¹,

Cheng²,

Lai³

et al. 2012

Archives of Biochemistry and Biophysics

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Papain-like protease (PLpro) from severe acute respiratory syndrome (SARS) coronavirus is one of the two proteases involved in the proteolytic processing of the virion polyproteins. In addition, PLpro shows significant in vitro deubiquitinating and de-ISGylating activities. All these findings demonstrated the multifunctional nature of the PLpro. Here we report the sensitivity of PLpro to denaturant urea. An increase in urea concentration induced a reversible biphasic unfolding of the enzyme. Differently, the unfolding of the catalytic triad region located within the palm and thumb domains followed a monophasic unfolding curve. Further observations suggest that the zinc-binding domain may start to unfold during the first transition. An 80% lost of its enzymatic activity at a urea concentration lower than 1M showed a close correlation with unfolding of the zinc-binding domain. The enzyme was also characterized in terms of hydrophobicity and size-and-shape distribution. We have demonstrated that PLpro displayed differential domain structure stability and molten globule state in its folding. These studies will not only assist in our understanding of the folding of this viral enzyme, but also that of other deubiquitinating enzymes with a similar scaffold.

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Crystal Structure of SARS-CoV papain-like protease C112S mutant in complex with ubiquitin

Chou¹,

Chen²,

Lai³

et al. 2014

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Ya-Wen Chou

Structural basis for catalysis and ubiquitin recognition by theSevere acute respiratory syndrome coronaviruspapain-like protease

Differential domain structure stability of the severe acute respiratory syndrome coronavirus papain-like protease

Crystal Structure of SARS-CoV papain-like protease C112S mutant in complex with ubiquitin

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