The retinoblastoma gene product (pRB) participates in regulating mammalian cell replication. The mechanism responsible for pRB's growth regulatory activity is uncertain. However, pRB is known to bind viral transforming proteins including the papilloma virus E7 protein, cellular proteins, and DNA. pRB contains a critical domain termed the "binding pocket" which is required for binding activities. This binding pocket contains 8 cysteine residues. A naturally occurring mutation affecting one of these cysteines is known to eliminate pRB's protein and DNA binding activities. To investigate the cysteine residues in pRB's binding pocket, each residue was mutated to alanine, phenylalanine, or serine. These mutant genes were used to prepare pRBs harboring specific amino acid substitutions. Individual mutations at positions 407, 553, 666, and 706 depressed pRB binding to E7 protein, DNA, and a conformation-specific anti-pRB antibody, XZ133. Combinations of these inhibitory mutations exhibited additive inhibitory effects on pRB's binding properties. Mutations at positions 438, 489, 590, 712, and 853 did not affect pRB binding to E7 protein, DNA, or the XZ133 antibody. Combination of these five neutral mutations yielded a pRB species with full E7 protein, DNA, and XZ133 binding activities. These studies indicate that the cysteine residues at positions 407, 553, 666, and 706 contribute to the E7 protein and DNA binding properties of pRB and appear to do so by maintaining pRB's normal conformation.