Abstract
The human erythrocyte beta-spectrin gene DNA has been cloned from overlapping human genomic phage and cosmid recombinants. The entire erythroid beta-spectrin mRNA is encoded by 32 exons that range in size from 49 to 871 bases. The exon/intron junctions have been identified and the exons mapped. There is no correlation between intron positions and the repeat units of 106 amino acids within domain II of the beta-spectrin gene. The scatter of the introns over the 17 repeats argues against the 106-amino-acid unit representing a minigene that underwent repeated duplication resulting in the present beta-spectrin gene. In fact, the two largest exons, exon 14 (871 bp) and 16 (757 bp), extend over 4 and 3 repeat units of 106 amino acids, respectively, while repeat beta 10 is encoded by 4 exons. No single position of an intron in the beta-spectrin gene is conserved between any of the 17 beta-spectrin and 22 alpha-spectrin repeat units. The nucleotide sequences of the exon/intron boundaries conform to the consensus splice site sequences except for exon 20, whose 5' donor splice-site sequence begins with GC. The beta-spectrin isoform present in the human brain, the skeletal muscle, and the cardiac muscle is an alternatively spliced product of the erythroid beta-spectrin gene. This splice site is located within the coding sequences of exon 32 and its utilization in nonerythroid tissues leads to the use of 4 additional downstream exons with a size range of 44 to 530 bp.
Published Version
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