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Sequences within the last intron function in RNA 3'-end formation in cultured cells.

Department of Human Genetics, Roswell Park Cancer Institute, Buffalo, New York 14263.

ABSTRACT

In cultured cells, little if any mRNA accumulates from an intronless version of the human gene for triosephosphate isomerase (TPI), a gene that normally contains six introns. By deleting introns either individually or in combinations, it was demonstrated by Northern (RNA) blot hybridization that while the deletion of a greater number of introns generally results in a lower level of product mRNA, not all introns contribute equally to mRNA formation. For example, intron 1 appeared to be dispensable, at least when the remaining introns are present, but deletion of the last intron, intron 6, reduced the level of product mRNA to 51% of normal. To determine how intron 6 contributes to mRNA formation, partial deletions of intron 6 were constructed and analyzed. Deletion of the lariat and acceptor splice sites or the donor, lariat, and acceptor splice sites, each of which precluded removal of the intron 6 sequences that remained, reduced the level of product mRNA to < 1 or 27% of normal, respectively. As measured by RNase mapping and cDNA sequencing, the decrease in mRNA abundance that was attributable to the complete and partial intron 6 deletions was accompanied by an increase in the abundance of pre-mRNA that lacked a mature 3' end, i.e., that was neither cleaved nor polyadenylated. We infer from these and other data that sequences within the final intron facilitate proper 3'-end formation, possibly through an association with the components of a productive spliceosome.

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