Robert Incorvaia scite author profile

Two types of eukaryotic nuclear introns are known: the common U2-dependent class with /GU and AG/ terminal intron dinucleotides, and the rare U12-dependent class with /AU and AC/ termini. Here we show that the U12-dependent splicing system can splice introns with /GU and AG/ termini and that such introns occur naturally. Further, U2-dependent introns with /AU and AC/termini also occur naturally and are evolutionarily conserved. Thus, the sequence of the terminal dinucleotides does not determine which spliceosomal system removes an intron. Rather, the four classes of introns described here can be sorted into two mechanistic classes (U2- or U12-dependent) by inspection of the complete set of conserved splice site sequences.

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Base pairing with U6atac snRNA is required for 5′ splice site activation of U12-dependent introns in vivo

Incorvaia

Padgett

1998

RNA

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The minor U12-dependent class of eukaryotic nuclear pre-mRNA introns is spliced by a distinct spliceosomal mechanism that requires the function of U11, U12, U5, U4atac, and U6atac snRNAs. Previous work has shown that U11 snRNA plays a role similar to U1 snRNA in the major class spliceosome by base pairing to the conserved 59 splice site sequence. Here we show that U6atac snRNA also base pairs to the 59 splice site in a manner analogous to that of U6 snRNA in the major class spliceosome. We show that splicing defective mutants of the 59 splice site can be activated for splicing in vivo by the coexpression of compensatory U6atac snRNA mutants. In some cases, maximal restoration of splicing required the coexpression of compensatory U11 snRNA mutants. The allelic specificity of mutant phenotype suppression is consistent with Watson-Crick base pairing between the pre-mRNA and the snRNAs. These results provide support for a model of the RNA-RNA interactions at the core of the U12-dependent spliceosome that is strikingly similar to that of the major class U2-dependent spliceosome.

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Robert Incorvaia

Terminal Intron Dinucleotide Sequences Do Not Distinguish between U2- and U12-Dependent Introns

Base pairing with U6atac snRNA is required for 5′ splice site activation of U12-dependent introns in vivo

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