Positional cloning of the zebrafish sauternes gene: a model for congenital sideroblastic anaemia
A Brownlie, A Donovan, SJ Pratt, BH Paw, AC Oates… - Nature …, 1998 - nature.com
A Brownlie, A Donovan, SJ Pratt, BH Paw, AC Oates, C Brugnara, HE Witkowska, S Sassa…
Nature genetics, 1998•nature.comMany human anaemias are caused by defects in haemoglobin synthesis. The zebrafish
mutant sauternes (sau) has a microcytic, hypochromic anaemia, suggesting that
haemoglobin production is perturbed. During embryogenesis, sau mutants have delayed
erythroid maturation and abnormal globin gene expression. Using positional cloning
techniques, we show that sau encodes the erythroid-specific isoform of δ-aminolevulinate
synthase (ALAS2; also known as ALAS-E), the enzyme required for the first step in haem …
mutant sauternes (sau) has a microcytic, hypochromic anaemia, suggesting that
haemoglobin production is perturbed. During embryogenesis, sau mutants have delayed
erythroid maturation and abnormal globin gene expression. Using positional cloning
techniques, we show that sau encodes the erythroid-specific isoform of δ-aminolevulinate
synthase (ALAS2; also known as ALAS-E), the enzyme required for the first step in haem …
Abstract
Many human anaemias are caused by defects in haemoglobin synthesis. The zebrafish mutant sauternes (sau) has a microcytic, hypochromic anaemia, suggesting that haemoglobin production is perturbed. During embryogenesis, sau mutants have delayed erythroid maturation and abnormal globin gene expression. Using positional cloning techniques, we show that sau encodes the erythroid-specific isoform of δ-aminolevulinate synthase (ALAS2; also known as ALAS-E), the enzyme required for the first step in haem biosynthesis. As mutations in ALAS2 cause congenital sideroblastic anaemia (CSA) in humans, sau represents the first animal model of this disease.
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