The receptor-like protein tyrosine phosphatase HPTP alpha has two active catalytic domains with distinct substrate specificities.

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Cloning and expression of the homologous domains of the receptor-like tyrosine phosphatase HPTP alpha shows that both domain 1 (D1) and domain 2 (D2) are enzymatically active. The two domains display different substrate specificities with D1 preferentially dephosphorylating MBP approximately RR-src greater than PNPP while D2 favours PNPP much much greater than RR-src and is inactive towards MBP. Each domain has lower activity than an expressed protein containing both domains. Analysis of chimaeric D1/2 proteins suggests that no particular region of D2 is responsible for the low activity of D2 on RR-src and that the specificity differences of D1 and D2 reflect overall sequence dissimilarities. Activities of D1 and D2 are inhibited by zinc, vanadate and EDTA and differentially susceptible to inhibition by heparin and poly(Glu4:Tyr1). Unusually, the activity of the protein containing both domains is stimulated by these polyanions. Regions amino-terminal to each domain are important for catalysis since deletion of these sequences abolishes phosphatase activity. Activity of the double domain polypeptide was also lost upon deletion of the sequence amino-terminal to D1, indicating that inactivation of D1 may suppress D2 activity. Differences in substrate specificity and responses to effectors and the interdependence between the two domains are likely important properties in the function of this PTPase in signal transduction.

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