Figure 1
Figure 1. Human α-spectrin gene/Aγ-globin transgenes. (A) A map of the erythrocyte α-spectrin promoter region. The minimal promoter (−794 to +1), untranslated exon 1′ (exon 1′), and intron 1′ (IVS1′), which is spliced out in 50% of α-spectrin transcripts, are shown. (B) A human α-spectrin (ASp) fragment containing the minimal α-spectrin promoter with or without downstream regions (ASp/Aγ), exon 1′ + IVS 1 (ASpEx1IVS1/Aγ), exon 1′ alone (ASpEx1/Aγ), or IVS 1 alone (ASpIVS1/Aγ), was fused to the human Aγ-globin gene to create the transgene constructs shown. One transgene, ASp promoter-exon 1-IVS1-splice mutant/Aγ-globin-splice mutant (ASpEx1IVS1 splice mutant/Aγ) was created with the conserved splice junction sequences of intron 1′ abolished.

Human α-spectrin gene/Aγ-globin transgenes. (A) A map of the erythrocyte α-spectrin promoter region. The minimal promoter (−794 to +1), untranslated exon 1′ (exon 1′), and intron 1′ (IVS1′), which is spliced out in 50% of α-spectrin transcripts, are shown. (B) A human α-spectrin (ASp) fragment containing the minimal α-spectrin promoter with or without downstream regions (ASp/Aγ), exon 1′ + IVS 1 (ASpEx1IVS1/Aγ), exon 1′ alone (ASpEx1/Aγ), or IVS 1 alone (ASpIVS1/Aγ), was fused to the human Aγ-globin gene to create the transgene constructs shown. One transgene, ASp promoter-exon 1-IVS1-splice mutant/Aγ-globin-splice mutant (ASpEx1IVS1 splice mutant/Aγ) was created with the conserved splice junction sequences of intron 1′ abolished.

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