Myelodysplastic syndromes (MDS) are the most common myeloid malignancies among the elderly. Patients present with bone marrow (BM) failure manifested by low peripheral blood (PB) counts and are at increased risk of developing acute myeloid leukemia. Mutations of U2AF1, a gene that encodes a spliceosome protein, are identified in 11% of MDS patients. The two most common U2AF1 mutants, S34F and Q157P, alter the splicing of two distinct sets of pre-mRNA targets in vitro and each co-occur with unique gene mutations in MDS patients, suggesting these mutants may affect MDS pathogenesis differently. In mice, U2AF1S34Fexpression leads to altered splicing, reduced B-cell counts, and features of MDS. Similar studies have not been performed for U2AF1Q157P. To study the impact of U2AF1Q157Pexpression on splicing and hematopoiesis in vivo, we created a doxycycline (DOX)-inducible (“Tet-On”) transgenic mouse that expresses mutant U2AF1Q157Pand is isogenic to our previously reported U2AF1S34Fand U2AF1WTtransgenic mice.