A framework for identifying transcript orthologs: the evolution of sex bias in alternative transcript structure in Drosophila
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Background
Recent advances in long read technologies provide an unprecedented opportunity to study transcript evolution. However, comparative evolutionary studies, even in Drosophila, are limited by inconsistent and incomplete annotation, and the lack of annotated transcript homology.
Results
In this study of five species spanning 28 million years ( D. melanogaster , D. simulans , D. yakuba , D. santomea and D. serrata ), we infer transcript homology using reciprocal liftover, and orthology using network analyses, with data validation from long read RNA-seq of male and female head tissue. We build the first genus level annotation, with 15,996 genes and 56,370 transcripts. Expressed transcripts are conserved, 73% of transcript orthologs are detected in all species. Even the improved annotation underestimates the number of genes with alternative transcripts, with 75% of genes expressing multiple structurally diverse transcripts. In a replicated quantitative evaluation of ∼10,000 genes, both male and female-biased transcripts are expressed in 410 ( D. melanogaster ), 608 ( D. simulans ), and 493 ( D. serrata ) genes and in 118 orthologous genes in the D. melanogaster - D. simulans species pair, indicating greater potential for resolution of sexual conflict by alternative transcription than previously appreciated. We identified 605 transcript orthologs conserved for sex bias in the D. melanogaster-D. simulans species pair and of these, 22 male and 19 female-biased transcripts were conserved in sex bias with the outgroup D. serrata, including transcripts of genes involved in brain development, Sxl target Glutamine synthetase 2 and ciboulot .
Conclusions
Conserved alternative transcripts suggest that transcriptional diversity is a pervasive driver of the evolution of functional diversity.
