To elucidate the in vivo function of GATA-1 during hematopoiesis, we specifically disrupted the erythroid promoter of the GATA-1 gene in embryonic stem cells and generated germ line chimeras. Male offspring of chimeras bearing the targeted mutation were found to die by 12.5 days post coitus due to severe anemia while heterozygous females displayed characteristics ranging from severe anemia to normal erythropoiesis. When female heterozygotes were crossed with transgenic males carrying a reporter gene, which specifically marks primitive erythroid progenitors, massive accumulation of undifferentiated erythroid cells were observed in the yolk sacs of the GATA-1-mutant embryos, demonstrating that GATA-1 is required for the terminal differentiation of primitive erythroid cells in vivo.
Background: Small members of the Maf family of transcriptional regulatory proteins share similar basic-leucine zipper domains but have no intrinsic ability to activate transcription. One member of the family (MafK) has been shown to mediate both negative and positive regulation: in addition to forming a homodimer which represses transcription, MafK can also form a heterodimer with p45 (the large subunit of erythroid transcription factor NF-E2) to activate transcription.
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