Human immunodeficiency virus type 1 circulates in vivo as a mixture of heterologous populations (quasispecies). We previously analyzed the quasispecies of the third hypervariable region (V3) in the viral envelope glycoprotein gp120 in an infected individual and found that the species with a basic amino acid substitution (lysine for aspartic acid) at a particular position evolved and became a distinct population within a short period, followed by progression to the typical immunodeficiency stage (S. Oka et al., AIDS Res. Hum. Retroviruses 10:271-277, 1994). In the present study, we examined the biological significance of this amino acid substitution by constructing recombinant viruses with specific point mutations and comparing their replication capabilities in different cell types. The results demonstrated that the single basic amino acid substitution was sufficient to render a virus fully capable of replicating in human T-cell lines under certain conditions. With an acidic amino acid at the position, the virus grew much less fast or did not grow at all in the T-cell lines. Viral neutralization assay and peptide enzyme-linked immunosorbent assays further showed that this amino acid substitution resulted in different recognition by several of the serum specimens from human immunodeficiency virus type 1-infected individuals and thus could alter the antigenic structure. An additional finding worthy of note was that at the terminal stage, the proviral sequences of peripheral blood mononuclear cells and the viral isolates from them were without exception of the late type with the basic amino acid substitution, whereas the early sequence without the substitution was retained as a major subset in the spleen. These results support the notion that basic amino acid substitutions in V3 are a strong predictor of virus tropism and may be relevant to disease progression.