A spliceosomal twin intron (stwintron) participates in both exon skipping and evolutionary exon loss

Abstract

Spliceosomal twin introns (stwintrons) are introns where any of the three consensus sequences involved in splicing is interrupted by another intron (internal intron). In Aspergillus nidulans, a donor-disrupted stwintron (intron-1) is extant in the transcript encoding a reticulon-like protein. The orthologous transcript of Aspergillus niger can be alternatively spliced; the exon downstream the stwintron could be skipped by excising a sequence that comprises this stwintron, the neighbouring intron-2, and the exon bounded by these. This process involves the use of alternative 3′ splice sites for the internal intron, the resulting alternative intervening sequence being a longer 3′-extended stwintron. In 29 species of Onygenales, a multi-step splicing process occurs in the orthologous transcript, in which a complex intervening sequence including the stwintron and neigbouring intron-2, generates by three splicing reactions a “second order intron” which must then be excised with a fourth splicing event. The gene model in two species can be envisaged as one canonical intron (intron-1) evolved from this complex intervening sequence of nested canonical introns found elsewhere in Onygenales. Postulated splicing intermediates were experimentally verified in one or more species. This work illustrates a role of stwintrons in both alternative splicing and the evolution of intron structure.