Caenorhabditis elegans introns typically lack both branch point and polypyrimidine tract consensus sequences utilized in other organisms for intron recognition. However, most introns have an unusually long, highly conserved consensus, UUUCAG/R, at the 3' splice site. This site can be recognized even when the -1G is changed to A. To determine how the 3' splice site is defined, we tested mutations in the sequence UUUCAA/A at the 3' splice site of the first intron of a test gene in vivo. Replacement of individual U's with A's or C's compromised splicing. When the sequence UUUCAA/AAG was tested, splicing occurred following both the -1A and the +3G, indicating that both UUUC and the AG contain 3' splice site information. When the sequence UUUCAA/AAA was tested, all splicing occurred following the -1A, suggesting that the UUUC contains sufficient information in the absence of an AG to specify the location of the splice site. In support of this idea, when point mutations were introduced into the UUUC, unspliced RNAs accumulated. Surprisingly, RNAs containing the mutant intron often contained the second, nonmutated intron as well, suggesting that interference with splicing of one intron can interfere with splicing of a second intron in the same pre-mRNA. The majority of these unspliced RNAs were degraded by the system responsible for degradation of transcripts containing nonsense mutations (smg), even though the intron contained no nonsense codon.