Abstract
Three exons in the fibronectin primary transcript are alternatively spliced in a tissue- and developmental stage-specific manner. One of these exons, EDA, has been shown previously by others to contain two splicing regulatory elements between 155 and 180 nucleotides downstream of the 3'-splice site: an exon splicing enhancer and a negative element. By transient expression of a chimeric beta-globin/fibronectin EDA intron in COS-7 cells, we have identified two additional exonic splicing regulatory elements. RNA generated by a construct containing the first 120 nucleotides of the fibronectin EDA exon was spliced with an efficiency of approximately 50%. Deletion of most of the fibronectin EDA exon sequences resulted in a 20-fold increase in the amount of spliced RNA, indicative of an exon splicing silencer. Deletion and mutagenesis studies suggest that the fibronectin exon splicing silencer is associated with a conserved RNA secondary structure. In addition, sequences between nucleotides 93 and 118 of the EDA exon contain a non-purine-rich splicing enhancer as demonstrated by its ability to function in a heterologous context.
Highlights
Higher eukaryotes have evolved alternative splicing as a common means of producing several different mRNAs and polypeptides from a single primary transcript
Using a chimeric intron composed of sequences flanking the 5Ј-splice site (5Јss) of the first intron of human -globin and sequences flanking the 3Ј-splice site (3Јss) of the human fibronectin EDA exon [2], we observed that deletion of most of the fibronectin EDA exon sequences resulted in a dramatic increase in splicing efficiency
Fibronectin EDA Exon Sequences Are Implicated in Repression of Splicing—In previous studies, our laboratory generated a chimeric gene composed of sequences flanking the 5Јss of the first intron of the human -globin gene and sequences flanking the 3Јss upstream of the EDA exon of the human fibronectin gene [2]
Summary
Higher eukaryotes have evolved alternative splicing as a common means of producing several different mRNAs and polypeptides from a single primary transcript (for review, see Ref. 1). RNA generated by a construct containing the first 120 nucleotides of the fibronectin EDA exon was spliced with an efficiency of approximately 50%.
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