The Ca2+-dependent protein activator of 3':5'-cyclic adenosine monophosphate phosphodiesterase is shown to undergo a conformational transition upon binding of 2 mol of Ca2+/mol of activator. Circular dichroic studies indicate that Ca2+ induces an increase of 5-8% in alpha-helix content with a concomitant decrease in the amount of random coil. In the absence of Ca2+ and in the presence of [ethylenebis(oxoethylenenitrilo)]tetraacetic acid (EGTA), the protein contains 30-35% alpha helix, 50% random coil, and 15-20% beta-pleated sheat. Spectrophotometric titration indicates that the two tyrosyl residues have pK's of 10.4 and 11.9 and are therefore in different environments. The Ca2+-induced conformational change is accompanied by an increased exposure to protons of the partially exposed tyrosine, as shown by a shift in its pK from 10.4 to 10.). Increased solvation is also consistent with a negative difference spectrum at 287 and 279 nm as seen upon Ca2+ binding. Modification in the environment of all or some of the phenylalanine residues also is part of the conformational change accompanying Ca2+ binding. A new and rapid purification procedure which yields large amounts (25-30% yields) of homogenous protein activator and a direct and sensitive assay procedure for cAMP phosphodiesterase and its activator are also described.
The identities and quantities of calcium-binding proteins were determined in axoplasm isolated from the squid giant axon. 45Ca-binding assays on nitrocellulose filters containing axoplasm proteins separated by SDS-polyacrylamide electrophoresis revealed 4 major calcium-binding bands. These included the high-molecular-weight (Mr greater than 330 and 220 X 10(3] neurofilament proteins, an unidentified protein band that migrated around Mr 55,000, and a diverse group of proteins that migrated together around Mr 17,000. The low-molecular-weight (Mr 17,000) calcium-binding proteins could be resolved into calmodulin (ca. 120 mumol/kg axoplasm), 2 other Mr 17,000 calcium-binding proteins, and a small amount of calcineurin B. It is estimated that these calcium-binding proteins in squid axoplasm could theoretically bind about 1 mmol Ca2+/kg axoplasm. 125I-Calmodulin overlay and Western blot analyses disclosed a number of calmodulin-binding proteins in axoplasm. These included fodrin, calcineurin A, and Ca2+/CaM protein kinase II subunits.
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