Abstract
Precursor messenger RNA splicing is catalyzed by the spliceosome, a macromolecular complex that assembles in a stepwise process. The spliceosome's dynamic nature suggests the potential for regulation at numerous points along the assembly pathway; however, thus far, naturally occurring regulation of splicing has only been found to influence a small subset of spliceosomal intermediates. Here we report that the exonic splicing silencer (ESS1) that represses splicing of PTPRC (encoding CD45) exon 4 does not function by the typical mechanism of inhibiting binding of U1 or U2 small nuclear ribonucleoproteins (snRNPs) to the splice sites. Instead, a U1-, U2- and ATP-dependent complex forms across exon 4 that is required for inhibiting progression to the U4-U6-U5 tri-snRNP-containing B complex. Such inhibition represents a new mechanism for splicing regulation and suggests that regulation can probably occur at many of the transitions along the spliceosome assembly pathway.
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