Abstract
The adenovirus E1A gene encodes five overlapping mRNAs which are processed by alternative RNA splicing from a common pre-mRNA. To characterize cis-acting sequence elements which are of importance for the alternative 5'-splice site selection deletion and substitution mutants within the intron that is common to all E1A mRNAs were constructed. Deletion of the wild-type E1A branch site/polypyrimidine tract resulted in activation of a functionally redundant sequence located within an A/T rich sequence just upstream of the normal E1A lariat branch site. Removal of both regulatory sequences abolished in vivo splicing completely and did not lead to activation of cryptic 3'-splice sites at other locations in the E1A pre-mRNA. Furthermore we show that the sequence around the E1A branch site/3'-splice site region may have a more direct effect on the efficiency by which the alternative E1A 5'-splice sites are selected. Replacing the E1A branch site/3'-splice site region with the corresponding sequence from the second intron of the rabbit beta-globin gene or the first intron of the major late transcription unit resulted in drastic changes in E1A 5'-splice site selection. For example, with the E1A/beta-globin hybrid gene the 9S mRNA became the most abundant E1A mRNA to accumulate. This contrasts with the wild-type E1A gene in which almost undetectable levels of 9S mRNA were produced in transient expression assays. Our results strongly suggest that a cooperative interaction between 5'- and 3'-splice sites on a pre-mRNA determines the outcome of alternative splicing.