The Allele-Specific Suppressor sup-39 Alters Use of Cryptic Splice Sites in Caenorhabditis elegans

The Allele-Specific Suppressor sup-39 Alters Use of Cryptic Splice Sites in Caenorhabditis elegans

A. Brock Roller^a, David C. Hoffman^a, and Alan M. Zahler^a
^a Department of Biology and Center for Molecular Biology of RNA, University of California, Santa Cruz, California 95064

Corresponding author: Alan M. Zahler, Department of Biology and Center for Molecular Biology of RNA, Sinsheimer Laboratories, University of California, Santa Cruz, CA 95064., zahler{at}biology.ucsc.edu (E-mail)

Communicating editor: R. K. HERMAN

Mutations in the Caenorhabditis elegans sup-39 gene cause allele-specificsuppression of the uncoordination defect of unc-73(e936). e936is a point mutation that changes the canonical G at the 5' endof intron 16 to a U. This mutation activates three splice donors,two of which define introns beginning with the canonical GU.Use of these two cryptic splice sites causes loss of readingframe; interestingly these messages are not substrates for nonsense-mediateddecay. The third splice donor, used in 10% of steady-state e936messages, is the mutated splice donor at the wild-type position,which defines an intron beginning with UU. In the presence ofa sup-39 mutation, these same three splice donors are used,but the ratio of messages produced by splicing at these siteschanges. The percentage of unc-73(e936) messages containingthe wild-type splice junction is increased to 33% with a correspondingincrease in the level of UNC-73 protein. This sup-39-inducedchange was also observed when the e936 mutant intron regionwas inserted into a heterologous splicing reporter constructtransfected into worms. Experiments with splicing reporter constructsshowed that the degree of 5' splice site match to the splicingconsensus sequence can strongly influence cryptic splice sitechoice. We propose that mutant SUP-39 is a new type of informationalsuppressor that alters the use of weak splice donors.

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