Control of 3ʹ splice site selection by the yeast splicing factor Fyv6

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Abstract

ABSTRACT Pre-mRNA splicing is catalyzed in two steps: 5ʹ splice site (SS) cleavage and exon ligation. A number of proteins transiently associate with spliceosomes to specifically impact these steps (1 st and 2 nd step factors). We recently identified Fyv6 (FAM192A in humans) as a 2 nd step factor in S. cerevisiae ; however, we did not determine how widespread Fyv6’s impact is on the transcriptome. To answer this question, we have used RNA-seq to analyze changes in splicing. These results show that loss of Fyv6 results in activation of non-consensus, branch point (BP) proximal 3ʹ SS transcriptome-wide. To identify the molecular basis of these observations, we determined a high-resolution cryo-EM structure of a yeast product complex spliceosome containing Fyv6 at 2.3 Å. The structure reveals that Fyv6 is the only 2 nd step factor that contacts the Prp22 ATPase and that Fyv6 binding is mutually exclusive with that of the 1 st step factor Yju2. We then use this structure to dissect Fyv6 functional domains and interpret results of a genetic screen for fyv61 suppressor mutations. The combined transcriptomic, structural, and genetic studies allow us to propose a model in which Yju2/Fyv6 exchange facilitates exon ligation and Fyv6 promotes usage of consensus, BP distal 3ʹ SS.

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europepmc
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License: CC-BY-NC-ND-4.0