The crystal structure of tyrosine aminotransferase~TAT! from the parasitic protozoan Trypanosoma cruzi, which belongs to the aminotransferase subfamily Ig, has been determined at 2.5 Å resolution with the R-value R ϭ 15.1%. T. cruzi TAT shares less than 15% sequence identity with aminotransferases of subfamily Ia but shows only two larger topological differences to the aspartate aminotransferases~AspATs!. First, TAT contains a loop protruding from the enzyme surface in the larger cofactor-binding domain, where the AspATs have a kinked a-helix. Second, in the smaller substrate-binding domain, TAT has a four-stranded antiparallel b-sheet instead of the two-stranded b-sheet in the AspATs. The position of the aromatic ring of the pyridoxal-59-phosphate cofactor is very similar to the AspATs but the phosphate group, in contrast, is closer to the substrate-binding site with one of its oxygen atoms pointing toward the substrate. Differences in substrate specificities of T. cruzi TAT and subfamily Ia aminotransferases can be attributed by modeling of substrate complexes mainly to this different position of the cofactor-phosphate group. Absence of the arginine, which in the AspATs fixes the substrate side-chain carboxylate group by a salt bridge, contributes to the inability of T. cruzi TAT to transaminate acidic amino acids. The preference of TAT for tyrosine is probably related to the ability of Asn17 in TAT to form a hydrogen bond to the tyrosine side-chain hydroxyl group.