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JBC, Vol. 250, Issue 19, 7788-7794, Oct, 1975
O. M. Rosen and J. Erlichman
Purified cyclic adenosine 3':5'-monophosphate (cAMP)-dependent protein
kinase of bovine cardiac muscles catalyzes the incorporation of 2 mol of
32P from [gamma-32P]ATP to seryl residues in its cAMP-binding protein. The
reaction appears to be catalyzed by the protein kinase itself rather than
by a protein kinase kinase and is enhanced by cAMP and by the addition of
polyarginine. Phosphorylation of the purified enzyme facilitates its
dissociation by cAMP (Erlichman, J., Rosenfeld, R., and Rosen, O.M. (1974)
J. Biol. Chem. 249, 5000-5003) but does not affect cAMP binding. At
equilibrium, 2 mol of cAMP are bound to both the phospho- and
dephospho-enzymes. Phosphorylation of protein kinase is reversible. Upon
addition of ADP and Mg2+, phosphate is transferred from the protein to ADP,
and ATP is formed. The reverse reaction is optimal at pH 5.5 unlike the
forward reaction which has a broad, more alkaline pH activity optimum. It
is activated by polyarginine and dependent upon the addition of cAMP to a
much greater degree than the forward reaction. The data suggest that the
catalytic subunit of protein kinase catalyzes the forward and reverse
reactions but do not exclude the possibility that the holoenzyme may also
be active. Autophosphorylation by protein kinase and dephosphorylation by
phosphrprotein phosphatases of by reverals of the autophosphorylation
reaction may regulate the sensitivity of certain protein kinases to
activation by cAMP in vivo.
Reversible autophosphorylation of a cyclic 3':5'-AMP-dependent protein kinase from bovine cardiac muscle
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