A mutation in a mitochondrial transmembrane protein is responsible for the pleiotropic hematological and skeletal phenotype of flexed-tail (f/f) mice

Mark D. Fleming; Dean R. Campagna; Judith N. Haslett; Cameron C. Trenor; Nancy C. Andrews

doi:10.1101/gad.873001

A mutation in a mitochondrial transmembrane protein is responsible for the pleiotropic hematological and skeletal phenotype of flexed-tail (f/f) mice

¹Department of Pathology, ²Division of Hematology, ³Division of Genetics, and ⁴Howard Hughes Medical Institute, Children's Hospital, Boston, Massachusetts 02115, USA; ⁵Department of Pathology and ⁶Department of Pediatrics, Harvard Medical School, Boston, Massachusetts 02115, USA

Abstract

We have studied the flexed-tail (f) mouse to gain insight into mammalian mitochondrial iron metabolism. Flexed-tailanimals have axial skeletal abnormalities and a transient embryonic and neonatal anemia characterized by pathologic intramitochondrial iron deposits in erythrocytes. Mitochondrial iron accumulation is the hallmark of sideroblastic anemias, which typically result from defects in heme biosynthesis or other pathways that lead to abnormal erythroid mitochondrial iron utilization. To clone thef gene, we used positional cloning techniques, and identified a frameshift mutation in a mitochondrial transmembrane protein. The mutated gene, Sfxn1, is the prototype of a novel family of evolutionarily conserved proteins present in eukaryotes.

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