Crystallographic characterization of a ternary complex containing a monomeric gp120 core, parts of CD4, and a mAb, revealed a region that bridges the inner and outer domains of gp120. In a related genetic study, several residues conserved among primate lentiviruses were found to play important roles in CC-chemokine receptor 5 (CCR5) coreceptor utilization, and all but one were mapped to the bridging domain. To reconcile this finding with previous reports that the hypervariable region 3 (V3) of gp120 plays an important role in chemokine coreceptor utilization, elucidating the roles of various V3 residues in this critical part of the HIV type 1 (HIV-1) life cycle is essential. Alanine-scanning mutagenesis was carried out to identify V3 residues critical for CCR5 utilization. Our findings demonstrated that several residues in V3 were critical to CCR5 utilization. Furthermore, these residues included not only those conserved across HIV-1 subtypes, but also those that varied among HIV-1 subtypes. Although the highly conserved V3 residues may represent unique targets for antiviral designs, the involvement of variable residues raises the possibility that antigenic variation in the coreceptor binding domain could further complicate HIV-1 vaccine design.