Mer1p Is a Modular Splicing Factor Whose Function Depends on the Conserved U2 snRNP Protein Snu17p

Marc Spingola, Javier Armisen, Manuel Ares

Research output: Contribution to journalArticlepeer-review

Abstract

<div class="line" id="line-5"> Mer1p activates the splicing of at least three pre&hyphen;mRNAs (AMA1, MER2, MER3) during meiosis in the yeast Saccharomyces cerevisiae. We demonstrate that enhancer recognition by Mer1p is separable from Mer1p splicing activation. The C&hyphen;terminal KH&hyphen;type RNA&hyphen;binding domain of Mer1p recognizes introns that contain the Mer1p splicing enhancer, while the N&hyphen;terminal domain interacts with the spliceosome and activates splicing. Prior studies have implicated the U1 snRNP and recognition of the 5&prime; splice site as key elements in Mer1p&hyphen;activated splicing. We provide new evidence that Mer1p may also function at later steps of spliceosome assembly. First, Mer1p can activate splicing of introns that have mutated branch point sequences. Secondly, Mer1p fails to activate splicing in the absence of the non&hyphen;essential U2 snRNP protein Snu17p. Thirdly, Mer1p interacts with the branch point binding proteins Mud2p and Bbp1p and the U2 snRNP protein Prp11p by two&hyphen;hybrid assays. We conclude that Mer1p is a modular splicing regulator that can activate splicing at several early steps of spliceosome assembly and depends on the activities of both U1 and U2 snRNP proteins to activate splicing.</div>
Original languageAmerican English
JournalNucleic Acids Research
Volume32
DOIs
StatePublished - Feb 13 2004

Disciplines

  • Genetics
  • Biology
  • Molecular Biology

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