M. Scott scite author profile

The substrate-binding clefts and catalytic machinery of pectin and pectate lyases have diverged significantly. Specificity is dictated by both the nature of the protein-carbohydrate interaction and long-range electrostatic forces. Three potential catalytic residues have been identified in pectin lyase, two of these are common to pectate lyases. Pectin lyase A does not bind Ca2+ but an arginine residue is found in an equivalent position to the Ca2+ ion in pectate lyase, suggesting a similar role in catalysis. The activity of pectin lyase A is pH -dependent with an optimum activity at pH 5.5. The activity drops above pH 7.0 due to a conformational change at the binding cleft, triggered by the proximity of two buried aspartate residues.

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Structure of the catalytic core of the family F xylanase from Pseudomonas fluorescens and identification of the xylopentaose-binding sites

Harris

et al. 1994

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The prosequence of procaricain forms an α-helical domain that prevents access to the substrate-binding cleft

et al. 1996

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Inhibition of human factor VIIIa by anti-A2 subunit antibodies.

Lollar¹,

Parker²,

Curtis³

et al. 1994

J. Clin. Invest.

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M. Scott

Fatigue-free ferroelectric capacitors with platinum electrodes

Two crystal structures of pectin lyase A from Aspergillus reveal a pH driven conformational change and striking divergence in the substrate-binding clefts of pectin and pectate lyases

Structure of the catalytic core of the family F xylanase from Pseudomonas fluorescens and identification of the xylopentaose-binding sites

The prosequence of procaricain forms an α-helical domain that prevents access to the substrate-binding cleft

Inhibition of human factor VIIIa by anti-A2 subunit antibodies.

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