The evolution of alternative splicing in the Pax family: the view from the Basal chordate amphioxus

Stephen Short, Linda Z. Holland

    Research output: Contribution to journalArticlepeer-review

    Abstract

    Pax genes encode transcription factors critical for metazoan development. Large-scale gene duplication with subsequent gene losses during vertebrate evolution has resulted in two human genes for each of the Pax1/9, Pax3/7, and Pax4/6 subfamilies and three for the Pax2/5/8 subfamily, compared to one each in the cephalochordate amphioxus. In addition, alternative splicing occurs in vertebrate Pax transcripts from all four subfamilies, and many splice forms are known to have functional importance. To better understand the evolution of alternative splicing within the Pax family, we systematically surveyed transcripts of the four amphioxus Pax genes. We have found alternative splicing in every gene. Comparisons with vertebrates suggest that the number of alternative splicing events per gene has not decreased following duplication; there are comparable levels in the four amphioxus Pax genes as in each gene of the equivalent vertebrate families. Thus, the total number of isoforms for the nine vertebrate genes is considerably higher than for the four amphioxus genes. Most alternative splicing events appear to have arisen since the divergence of amphioxus and vertebrate lineages, suggesting that differences in alternative splicing could account for divergent functions of the highly conserved Pax genes in both lineages. However, several events predicted to dramatically alter known functional domains are conserved between amphioxus and vertebrates, suggestive of a common chordate function. Our results, together with previous studies of vertebrate Pax genes, support the theory that alternative splicing impacts functional motifs more than gene duplication followed by divergence.

    Original languageEnglish
    Pages (from-to)605-620
    JournalJournal of Molecular Evolution
    Volume66
    Issue number6
    DOIs
    Publication statusPublished - Jun 2008

    Keywords

    • Alternative Splicing
    • Animals
    • Base Sequence
    • Chordata, Nonvertebrate
    • Evolution, Molecular
    • Paired Box Transcription Factors
    • Protein Isoforms
    • Protein Structure, Tertiary
    • Sequence Alignment
    • Sequence Deletion
    • Vertebrates

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