Background: Red blood cells (RBCs) have a complex biology that allows regulation of metabolism, cellular rigidity, ion exchange, pH, and molecular communication with the vasculature. A central regulator of these biologies are macrocomplexes of integral membrane proteins that are both linked to cytoskeletal proteins and also differentially bind to metabolic enzymes based upon oxygenation status of the RBC. RBC surface staining, co-immunoprecipitation, and cross-linking proteomic approaches have generated a model of the macrocomplex encompassing Band 3, Rh, RhAG, CD47, glycophorin A, glycophorin B, and LW. TER-119 is a monoclonal antibody with exquisite specificity for the erythroid lineage in mice. However, the molecular target of TER-119 has remained unknown. TER-119 immunoprecipitates 4 specific protein bands, two of which are glycophorin A (GYPA) monomers or homodimers respectively; however, TER-119 is non-reactive to GYPA when assayed through Western blots and flow cytometry with erythroid cell lines expressing GYPA. These data led the originators of TER-119 to conclude it binds to a GYPA associated protein, but not GYPA itself. In contrast, others have concluded that TER-119 binds GYPA directly, and have inferred GYPA biology based upon TER-119 reactivity.