Recent studies demonstrate that the V3 loop of HIV-1 gp120 plays an important role in the attachment of HIV-1 to the target cells. Several amino acids in this domain are involved in the interaction of gp!20 with the co-receptors. The V3 loop elicits one of the earliest antiviral antibody responses in HIV-1 infection and has been identified as the principal neutralizing determinant (PND) . A subset of antibodies to V3 loop show a broad range of neutralizing activity. Unfortunately, this loop undergoes broad mutation and is one of the hypervariable regions. Mutations of some amino acids in this PND could affect syncytium formation, virus infectivity and neutralization. Knowing the structural characteristics and biological functions of the V3 region could help us to understand mechanism of HIV infection and to develop new strategy against HIV-1. In this review, the structural characteristics, variation and biological functions of the V3 loop as well as immunological responses to the V3 loop are discussed. Recent studies demonstrate that the V3 loop of HIV-1 gp120 plays an important role in the attachment of HIV-1 to the target cells. Several amino acids in this domain are involved in the interaction of gp! 20 with the co-receptors. V3 loop elicits one of the earliest antiviral antibody responses in HIV-1 infection and has been identified as the principal neutralizing determinant (PND). A subset of antibodies to V3 loop show a broad range of neutralizing activity. Unfortunately, this loop undergoes broad mutation and is one of the hypervariable regions. Mutations of some amino acids in this PND could affect syncytium formation, virus infectivity and neutralization. Knowing the structural characteristics and biological functions of the V3 region could help us to understand mechanism of HIV infection and to develop new strategy against HIV-1. In this review, the structural characteristics, variation and biological functions of the V3 loop as well as immunological responses to the V3 lo op are discussed.