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J. Biol. Chem., Vol. 260, Issue 28, 14932-14937, 12, 1985
B Martin, CJ Pallen, JH Wang and DJ Graves
Calcineurin, a calmodulin-activated protein phosphatase, is known to
dephosphorylate certain low molecular weight phosphate esters. The low
molecular weight phosphatase activity of calcineurin has been studied by
utilizing tyrosine phosphate derivatives. Kinetic studies suggest that the
substrate specificity is dependent upon the electronic nature of the
substrate in contrast to results obtained with alkaline phosphatase from
Escherichia coli. Comparison of calcineurin and acid- catalyzed hydrolyses
indicates a 1:1 correlation between the rate constants for the two
processes. This correlation and other model studies have been utilized to
provide insight into the chemical mechanism of calcineurin. Possible
chemical mechanisms for calcineurin are discussed.
Use of fluorinated tyrosine phosphates to probe the substrate specificity of the low molecular weight phosphatase activity of calcineurin
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