Differential Specificity of Protein Kinases A and C in Reaction with Synthetic Peptides

and His, was synthesized and the kinetics of their phosphorylation by protein kinase C was studied. All compounds, except the peptide with Pro at the position X, were effectively phosphorylated by this enzyme, and for these substrates the kinetic constants K m , maximal velocity constants V, and sec

Peptides, obtained by gradual removal of amino acids from both ends of pEKRPSQRSKYL, and stereoisomeric nonapeptides KRPSQRAKY with one D-amino acid residue successively in each position, were tested as substrates for protein kinase A. All these compounds were phosphorylated but at quite different r

The synthetic peptide neurogranin \({ }_{(28-43)}\), the sequence of which is homologous to the phosphorylation site of the brain specific protein kinase \(C\) (PKC) substrates neurogranin and neuromodulin, was tested for its utility as a PKC substrate in crude tissue homogenates. The phosphorylatio

The cell line A126-1B2 is a PC12-derived mutant that is resistant to the toxic effects of dibutyryladenosine 3'5'-cyclic monophosphate (dbcAMP) and is deficient in adenosine 3':5'-cyclic monophosphate (CAMP)-dependent protein kinase I1 (PKAII). This mutant formed neurites in response to nerve growth

## Abstract Ependymin (EPN) is a goldfish brain neurotrophic factor previously shown to function in a variety of cellular events related to long‐term memory formation and neuronal regeneration. CMX‐8933, an 8‐amino‐acid synthetic peptide fragment of EPN, was designed for aiding an investigation of

## Abstract We have previously shown that HeLa cells express P2Y~2~ and P2Y~6~ receptors endogenously and determined the pathways by which the P2Y~2~ controls proliferation and Na^+^/K^+^ATPase activity. Our objective in this study was to investigate the hypothesis that P2Y~6~ also controls prolife