Sandra Pietschmann scite author profile

Folding of cathepsins L and S depend upon their proregion which extends the enzyme part by about 100 amino acids. Only a minority of the prosequence follows the structural template provided by the enzyme part; the majority forms an autonomous minidomain fairly distant from the active site cleft. We suggest that this prodomain may be the structural correlate of a foldase function of the proregion within the cathepsin L-like subfamily of papain-type cysteine proteases and report on a functional approach supporting this hypothesis.

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Foldase Function of the Cathepsin S Proregion Is Strictly Based upon Its Domain Structure

Pietschmann¹,

Fehn²,

Kaulmann³

et al. 2002

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Folding of cathepsin S, like other cathepsin L-like proteases, depends on its proregion. The major part of the proregion forms a small domain distal from the catalytic centre, suggesting function(s) beyond active-site shielding. Using an optimised in vitro trans-refolding assay, we compared reactivation of denatured cathepsin S by the genuine propeptide, wild-type and ten selected mutants. Including structural data and binding constants, we identified the prodomain core and the hairpin region to be important for the foldase function.

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Sandra Pietschmann

Folding Incompetence of Cathepsin L-Like Cysteine Proteases May Be Compensated by the Highly Conserved, Domain-Building N-Terminal Extension of the Proregion

Folding Incompetence of Cathepsin L-Like Cysteine Proteases May Be Compensated by the Highly Conserved, Domain-Building N-Terminal Extension of the Proregion

Foldase Function of the Cathepsin S Proregion Is Strictly Based upon Its Domain Structure

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