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Interplay between Developmental Flexibility and Determinism in the Evolution of Mimetic Heliconius Wing Patterns
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Autores
Concha C.
Wallbank R.W.R.
Hanly J.J.
Fenner J.
Livraghi L.
Rivera E.S.
Paulo D.F.
Arias C.
Vargas M.
Sanjeev M.
Fecha
2019
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Cell Press
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Métricas alternativas
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Abstract
To what extent can we predict how evolution occurs? Do genetic architectures and developmental processes canalize the evolution of similar outcomes in a predictable manner? Or do historical contingencies impose alternative pathways to answer the same challenge? Examples of Müllerian mimicry between distantly related butterfly species provide natural replicates of evolution, allowing us to test whether identical wing patterns followed parallel or novel trajectories. Here, we explore the role that the signaling ligand WntA plays in generating mimetic wing patterns in Heliconius butterflies, a group with extraordinary mimicry-related wing pattern diversity. The radiation is relatively young, and numerous cases of wing pattern mimicry have evolved within the last 2.5–4.5 Ma. WntA is an important target of natural selection and is one of four major effect loci that underlie much of the pattern variation in the group. We used CRISPR/Cas9 targeted mutagenesis to generate WntA-deficient wings in 12 species and a further 10 intraspecific variants, including three co-mimetic pairs. In all tested butterflies, WntA knockouts affect pattern broadly and cause a shift among every possible scale cell type. Interestingly, the co-mimics lacking WntA were very different, suggesting that the gene networks that pattern a wing have diverged considerably among different lineages. Thus, although natural selection channeled phenotypic convergence, divergent developmental contexts between the two major Heliconius lineages opened different developmental routes to evolve resemblance. Consequently, even under very deterministic evolutionary scenarios, our results underscore a surprising unpredictability in the developmental paths underlying convergence in a recent radiation. © 2019 Elsevier LtdConcha et al. use CRISPR/Cas9 genome editing to knock out a major wing patterning gene, WntA, in mimetic species of Heliconius butterflies and report that WntA is used in divergent gene regulatory networks in co-mimics and that resemblance is achieved through differential expression of WntA and its interaction with the specific genetic background. © 2019 Elsevier Ltd
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Keywords
Article , Butterfly , Convergent evolution , Crispr-cas9 system , Knockout gene , Mullerian mimicry , Natural selection , Nonhuman , Site directed mutagenesis , Wing , Wnt signaling , Butterfly wing patterns , Color patterns , Convergent evolution , Crispr mutagenesis , Heliconius butterflies , Müllerian mimicry , Wnt signaling , Wnta
