In most species the 3' splice site is recognized initially by an interaction between the two-subunit splicing factor U2AF with the polypyrimidine (poly(Y)) tract that results in recruitment of the U2 snRNP to the branch-point consensus just upstream. In contrast, in Caenorhabditis elegans, both the poly(Y) tract and the branch-point consensus sequences are missing, apparently replaced by the highly conserved U4CAG/R 3' splice site consensus. Nevertheless C. elegans U2AF65 is very similar to its mammalian and fly counterparts and may recognize the 3' splice site consensus. Here we report the cloning of the C. elegans U2AF35 gene, uaf-2. We show that it lacks an identifiable RS domain, which, in flies, has been shown to play a role in RNA binding, but it contains an extended glycine-rich stretch at its C-terminus. uaf-2 is in an operon with cyp-13, a gene that encodes a cyclophilin with an RRM domain at its N-terminus. We demonstrate by RNA interference that both U2AF genes, uaf-1 (which encodes U2AF65) and uaf-2, are required for viability, whereas cyp-13 is apparently not.