Few polytopic membrane proteins have had their topology determined experimentally. Often, researchers turn to an algorithm to predict where the transmembrane domains might lie. Here we use a consensus method, using six different transmembrane domain prediction algorithms on six members of the oligopeptide transport family, all of which have been experimentally characterized. PSI-BLAST results indicate that the six chosen oligopeptide transport family members are distributed throughout most branches of the phylogram, suggesting that these members represent a broad view of the oligopeptide transport family. We combined the prediction algorithms with a multiple sequence alignment, and consensus transmembrane domains were assigned not only based on algorithmic output, but also based on conserved familial motifs found by analysis of the PSI-BLAST results. The consensus method combined with the "charge-difference rule" yields a model topology for the family containing 12 transmembrane domains with the N- and C-termini facing extracellular.