The aggregation and structural properties of the synthetic C-terminal half [Ala330, Ala350(270-373; 104-mer)] polypeptide from HIV-1 p24gag were studied. In concentrated solutions the synthetic polypeptide aggregated to tetramers which, upon dilution, gave a mixture of monomeric and dimeric and dimeric species. These results correlated well with the in vitro aggregation properties of recombinant p24. The tetrameric form of the synthetic polypeptide had a pI which differed by about four units from that of the mixture of monomeric and dimeric species. CD studies indicated that the latter contained, in aqueous solutions, a compact molecule lacking, however, a defined tertiary structure. Addition of MeOH to aqueous solutions of both tetramer and monomer/dimer mixture induced a more defined structure, which was assigned to that of an alpha + beta protein in agreement with secondary structure predictions. A model of the dimeric form of the 104-mer, which takes into account the results presented here and those from a study on the specificity of a set of anti-104-mer MoAbs, is presented. Finally, the results indicated that the structure of the 104-mer in its dimeric form is similar to that adopted by the same sequence when part of full-length p24.