Multiple Functions of Saccharomyces cerevisiae Splicing Protein Prp24 in U6 RNA Structural Rearrangements

Multiple Functions of Saccharomyces cerevisiae Splicing Protein Prp24 in U6 RNA Structural Rearrangements

Regina M. Vidaver^a, David M. Fortner^a, Liana S. Loos-Austin^a, and David A. Brow^a
^a Department of Biomolecular Chemistry, University of Wisconsin Medical School, Madison, Wisconsin 53706-1532

Corresponding author: David A. Brow, Department of Biomolecular Chemistry, 535A MSC, University of Wisconsin-Madison, 1300 University Ave., Madison, WI 53706-1532., dabrow{at}facstaff.wisc.edu (E-mail)

Communicating editor: M. HAMPSEY

U6 spliceosomal RNA has a complex secondary structure that includesa highly conserved stemloop near the 3' end. The 3' stem isunwound when U6 RNA base-pairs with U4 RNA during spliceosomeassembly, but likely reforms when U4 RNA leaves the spliceosomeprior to the catalysis of splicing. A mutation in yeast U6 RNAthat hyperstabilizes the 3' stem confers cold sensitivity andinhibits U4/U6 assembly as well as a later step in splicing.Here we show that extragenic suppressors of the 3' stem mutationmap to the gene coding for splicing factor Prp24. The suppressormutations are located in the second and third of three RNA-recognitionmotifs (RRMs) in Prp24 and are predicted to disrupt RNA binding.Mutations in U6 RNA predicted to destabilize a novel helix adjacentto the 3' stem also suppress the 3' stem mutation and enhancethe growth defect of a suppressor mutation in RRM2 of Prp24.Both phenotypes are reverted by a compensatory mutation thatrestores pairing in the novel helix. These results are bestexplained by a model in which RRMs 2 and 3 of Prp24 stabilizean extended intramolecular structure in U6 RNA that competeswith the U4/U6 RNA interaction, and thus influence both associationand dissociation of U4 and U6 RNAs during the splicing cycle.

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