Microcytic anaemia mice have a mutation in Nramp2, a candidate iron transporter gene
MD Fleming, CC Trenor III, MA Su, D Foernzler… - Nature …, 1997 - nature.com
Nature genetics, 1997•nature.com
Although disorders of iron metabolism are prevalent, iron transport remains poorly
understood. To address this problem, we undertook a positional cloning strategy to identify
the causative mutation in mice with microcytic anaemia (mk). Homozygous mk/mk mice have
microcytic, hypochromic anaemia due to severe defects in intestinal iron absorption and
erythroid iron utilization1–4. We report the identification of a strong candidate gene for mk,
and suggest that the phenotype is a consequence of a missense mutation in Nramp2 (ref. 5) …
understood. To address this problem, we undertook a positional cloning strategy to identify
the causative mutation in mice with microcytic anaemia (mk). Homozygous mk/mk mice have
microcytic, hypochromic anaemia due to severe defects in intestinal iron absorption and
erythroid iron utilization1–4. We report the identification of a strong candidate gene for mk,
and suggest that the phenotype is a consequence of a missense mutation in Nramp2 (ref. 5) …
Abstract
Although disorders of iron metabolism are prevalent, iron transport remains poorly understood. To address this problem, we undertook a positional cloning strategy to identify the causative mutation in mice with microcytic anaemia (mk). Homozygous mk/mk mice have microcytic, hypochromic anaemia due to severe defects in intestinal iron absorption and erythroid iron utilization1–4. We report the identification of a strong candidate gene for mk, and suggest that the phenotype is a consequence of a missense mutation in Nramp2 (ref. 5), a previously identified gene of unknown function. Nramp2 is homologous to Nrampl, a gene active in host defense. If Nramp2 is mk, as the cumulative evidence suggests, our findings have broad implications for the understanding of iron transport and resistance to intracellular pathogens.
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