Specific sites of protein-protein interaction were identified in the 51-149 region of c-Raf-1 using contact epitope scanning and site-directed mutagenesis. Nineteen overlapping peptides based upon the primary sequence of the Ras binding domain of c-Raf-1 were tested for the ability to competitively inhibit complex formation between Ras-GTP and the c-Raf-1 N-terminus. A peptide containing c-Raf-1 residues 91-105 as well as five overlapping peptides covering a region extending from residues 118 to 143 interfered with Ras association, defining these sites as potential contact surfaces with Ras. Alanine scanning mutagenesis was used as a second probe for sites of Ras interaction with the c-Raf-1 N-terminus. Raf residues 64-67 and 80-103 were demonstrated as important for association with Ras-GTP with residues 66, 67, 84, 87, 89 and 91 identified as the most critical individual points of contact with the Ras protein. Alanine substitution of residues between 118-143 suggested only one potentially weak site of interaction defined by residues 120-125. The combined results of both peptide and mutagenic analyses suggest that the primary site of c-Raf-1 interaction with Ras maps to Raf residues 80-103, with secondary interactions occurring with residues 66 and 67 and possibly 120-125. Contact epitope scanning of the Ras effector region found maximum inhibition of Ras/Raf association with a peptide corresponding to Ras amino acids 37-51. A model is proposed for the GTP-dependent association of Ras and Raf.