Each regulatory (R) subunit of cAMP-dependent protein kinase contains an autoinhibitor site that lies approximately 90-100 residues from the amino terminus. In order to study the importance of this autoinhibitor site in the type I R-subunit for interacting with the catalytic (C) subunit, recombinant techniques were used to replace Ala-97 with Gln, His, Lys, and Arg and to replace Ser-99 with Gly and Lys. All of the mutant proteins having a replacement at Ala-97 showed reduced affinity for the C-subunit ranging from 14- to 55-fold. In general, the decrease in affinity of the Ala-97 mutants for the C-subunit correlated with the increase in size of the side chain. In contrast to wild type R-subunit, where MgATP facilitates holoenzyme formation, MgATP inhibits the reassociation in all of the Ala-97 mutants suggesting that the larger side chains sterically interfere with bound MgATP in the active site of the C-subunit. Whereas MgATP slowed holoenzyme formation, AMP actually accelerated the reassociation of the A97K, A97H (pH 6.0), and A97Q mutants with the C-subunit. Therefore, the side chains of Lys-97, His-97, and Gln-97 can interact either electrostatically or by hydrogen bonding with the phosphate of AMP. This interpretation is reinforced by the fact that the stimulatory effect of AMP on the A97H mutant was pH-dependent. The affinities of the S99G and S99K mutants for the C-subunit were reduced 7- and 24-fold, respectively, suggesting that Ser-99 also may contribute to interactions between the R- and C-subunits.