Belgrade (b) rats have an autosomal recessive, microcytic, hypochromic anemia. Transferrin (Tf)-dependent iron uptake is defective because of a mutation in DMT1 (Nramp2), blocking endosomal iron efflux. This experiment of nature permits the present study to address whether the mutation also affects non-Tf-bound iron (NTBI) uptake and to use NTBI uptake compared to Tf-Fe utilization to increase understanding of the phenotype of the b mutation. The distribution of 59Fe2+ into intact erythroid cells and cytosolic, stromal, heme, and nonheme fractions was different after NTBI uptake vs. Tf-Fe uptake, with the former exhibiting less iron into heme but more into stromal and nonheme fractions. Both reticulocytes and erythrocytes exhibit NTBI uptake. Only reticulocytes had heme incorporation after NTBI uptake. Properly normalized, incorporation into b/b heme was approximately 20% of +/b, a decrease similar to that for Tf-Fe utilization. NTBI uptake into heme was inhibited by bafilomycin A1, concanamycin, NH4Cl, or chloroquine, consistent with the endosomal location of the transporter; cellular uptake was uninhibited. NTBI uptake was unaffected after removal of Tf receptors by Pronase or depletion of endogenous Tf. Concentration dependence revealed that NTBI uptake into cells, cytosol, stroma, and the nonheme fraction had an apparent low affinity for iron; heme incorporation behaved like a high-affinity process, as did an expression assay for DMT1. DMT1 serves in both apparent high-affinity NTBI membrane transport and the exit of iron from the endosome during Tf delivery of iron in rat reticulocytes; the low-affinity membrane transporter, however, exhibits little dependence on DMT1.