Open AccessConcentration-dependent splicing is enabled by Rbfox motifs of intermediate affinity
Author(s) -
Bridget E. Begg,
Marvin Jens,
Peter Y. Wang,
Christine M Minor,
Christopher B. Burge
Publication year - 2020
Publication title -
nature structural and molecular biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 9.448
H-Index - 270
eISSN - 1545-9993
pISSN - 1545-9985
DOI - 10.1038/s41594-020-0475-8
Subject(s) - rna splicing , alternative splicing , rna binding protein , exon , biology , intron , rna recognition motif , microbiology and biotechnology , rna , exonic splicing enhancer , gene , genetics
The Rbfox family of splicing factors regulate alternative splicing during animal development and in disease, impacting thousands of exons in the maturing brain, heart and muscle. Rbfox proteins have long been known to bind to the RNA sequence GCAUG with high affinity and specificity, but just half of Rbfox binding sites contain a GCAUG motif in vivo. We incubated recombinant RBFOX2 with over 60,000 mouse and human transcriptomic sequences to reveal substantial binding to several moderate-affinity, non-GCAYG sites at a physiologically relevant range of RBFOX2 concentrations. We find that these 'secondary motifs' bind Rbfox robustly in cells and that several together can exert regulation comparable to GCAUG in a trichromatic splicing reporter assay. Furthermore, secondary motifs regulate RNA splicing in neuronal development and in neuronal subtypes where cellular Rbfox concentrations are highest, enabling a second wave of splicing changes as Rbfox levels increase.