Biochemical characterization of Gyp6p, a Ypt/Rab-specific GTPase-activating protein from yeast.

Gyp6p from yeast belongs to the GYP family of Ypt/Rab-specific GTPase-activating proteins, and Ypt6p is its preferred substrate (Strom, M., Vollmer, P., Tan, T. J., and Gallwitz, D. (1993) Nature 361, 736-739). We have investigated the kinetic parameters of Gyp6p/Ypt6p interactions and find that Gyp6p accelerates the intrinsic GTPase activity of Ypt6p (0.0002 min(-1)) by a factor of 5 x 10(6) and that they have a very low affinity for its preferred substrate (K(m) = 592 micrometer). Substitution with alanine of several arginines, which Gyp6p shares with other GYP family members, resulted in significant inhibition of GAP activity. Replacement of arginine-155 with either alanine or lysine abolished its GAP activity, indicating a direct involvement of this strictly conserved arginine in catalysis. Physical interaction of the catalytically inactive Gyp6(R155A) mutant GAP with Ypt6 wild-type and Ypt6 mutant proteins could be demonstrated with the two-hybrid system. Short N-terminal and C-terminal truncations of Gyp6p resulted in a complete loss of GAP activity and Ypt6p binding, showing that in contrast to two other Gyp proteins studied previously, most of the 458 amino acid-long Gyp6p sequence is required to form a three-dimensional structure that allows substrate binding and catalysis.