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Gene regulatory network co-option is sufficient to induce a morphological novelty in . | LitMetric

AI Article Synopsis

  • Identifying how new morphological structures evolve is a major question in evolutionary biology, but few examples clarify this process.
  • This research provides evidence that large projections on the male phallus, implicated in sexual conflict, evolved by repurposing the trichome genetic network, which normally governs hair-like structures on the body.
  • The study shows that the transcription factor Shavenbaby is crucial for the proper development of these projections, and its mis-expression can induce related structures in a different species, demonstrating the flexibility and evolutionary potential of genetic networks.

Article Abstract

Identifying the molecular origins by which new morphological structures evolve is one of the long standing problems in evolutionary biology. To date, vanishingly few examples provide a compelling account of how new morphologies were initially formed, thereby limiting our understanding of how diverse forms of life derived their complex features. Here, we provide evidence that the large projections on the phallus that are implicated in sexual conflict have evolved through co-option of the trichome genetic network. These unicellular apical projections on the phallus postgonal sheath are reminiscent of trichomes that cover the body but are up to 20-fold larger in size. During their development, they express the transcription factor Shavenbaby, the master regulator of the trichome network. Consistent with the co-option of the Shavenbaby network during the evolution of the projections, somatic mosaic CRISPR/Cas9 mutagenesis shows that is necessary for their proper length. Moreover, mis-expression of Shavenbaby in the sheath of , a naïve species that lacks these extensions, is sufficient to induce small trichomes. These induced extensions rely on a genetic network that is shared to a large extent with the projections, indicating its co-option but also some genetic rewiring. Thus, by leveraging a genetically tractable evolutionarily novelty, our work shows that the trichome-forming network is flexible enough that it can be co-opted in a new context, and subsequently refined to produce unique apical projections that are barely recognizable compared to their simpler ancestral beginnings.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10996490PMC
http://dx.doi.org/10.1101/2024.03.22.584840DOI Listing

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