Pregnancy-associated glycoproteins (PAGs) are synthesized in the placental cells of ruminants and are detectable in blood, milk, and urine. Many of these proteins have been obtained and characterized from placental extracts by precipitation with 80 % ammonium sulfate. The possibility of purifying PAGs by precipitation with other concentrations of ammonium sulfate remains unexplored. We aimed to study PAG proteins obtained from extracts of ovine placenta at 100 days of gestation through precipitation with 40 % ammonium sulfate (Extract 40). The main protein complex (130 kDa) was obtained after Extract 40 precipitation. Under reducing SDS-PAGE conditions, the 130 kDa complex dissociated in two PAG proteins with apparent molecular weights of 52.1 kDa and 26.1 kDa. The 130 kDa protein appeared to be a molecular complex consisting of two copies of the 52.1 kDa protein linked to one copy of the 26.1 kDa protein, presumably by disulfide bonds. Furthermore, the 52.1 kDa protein consisted of at least three isoforms with distinct isoelectric points. Amino acid microsequencing of the 52.1 kDa protein revealed a chimeric structure containing amino acid sequences of PAG1, PAG4, PAG6, and PAG1-like proteins. This procedure recovered a novel 130 kDa protein complex composed of 26.1 kDa and two 52.1 kDa PAGs. To the best of our knowledge, this has not been previously reported as heterologous polymeric molecules.