Cortex cis-regulatory switches establish scale colour identity and pattern diversity in Heliconius

Luca Livraghi; Joseph J Hanly; Steven M Van Bellghem; Gabriela Montejo-Kovacevich; Eva Sm van der Heijden; Ling Sheng Loh; Anna Ren; Ian A Warren; James J Lewis; Carolina Concha; Laura Hebberecht; Charlotte J Wright; Jonah M Walker; Jessica Foley; Zachary H Goldberg; Henry Arenas-Castro; Camilo Salazar; Michael W Perry; Riccardo Papa; Arnaud Martin; W Owen McMillan; Chris D Jiggins

doi:10.7554/eLife.68549

Cortex cis-regulatory switches establish scale colour identity and pattern diversity in Heliconius

Luca Livraghi, Joseph J Hanly, Steven M Van Bellghem, Gabriela Montejo-Kovacevich, Eva Sm van der Heijden, Ling Sheng Loh, Anna Ren, Ian A Warren, James J Lewis, Carolina Concha, Laura Hebberecht, Charlotte J Wright, Jonah M Walker, Jessica Foley, Zachary H Goldberg, Henry Arenas-Castro, Camilo Salazar, Michael W Perry, Riccardo Papa, Arnaud MartinW Owen McMillan, Chris D Jiggins

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26 Citas (Scopus)

Resumen

In Heliconius butterflies, wing colour pattern diversity and scale types are controlled by a few genes of large effect that regulate colour pattern switches between morphs and species across a large mimetic radiation. One of these genes, cortex, has been repeatedly associated with colour pattern evolution in butterflies. Here we carried out CRISPR knockouts in multiple Heliconius species and show that cortex is a major determinant of scale cell identity. Chromatin accessibility profiling and introgression scans identified cis-regulatory regions associated with discrete phenotypic switches. CRISPR perturbation of these regions in black hindwing genotypes recreated a yellow bar, revealing their spatially limited activity. In the H. melpomene/timareta lineage, the candidate CRE from yellow-barred phenotype morphs is interrupted by a transposable element, suggesting that cis-regulatory structural variation underlies these mimetic adaptations. Our work shows that cortex functionally controls scale colour fate and that its cis-regulatory regions control a phenotypic switch in a modular and pattern-specific fashion.

Idioma original	Inglés estadounidense
Número de artículo	e68549
Publicación	eLife
Volumen	10
DOI	https://doi.org/10.7554/eLife.68549 https://doi.org/10.7554/eLife.68549
Estado	Publicada - jul. 19 2021

Áreas temáticas de ASJC Scopus

Neurociencias General
Bioquímica, Genética y Biología Molecular General
Inmunología y Microbiología General

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Livraghi, L., Hanly, J. J., Van Bellghem, S. M., Montejo-Kovacevich, G., van der Heijden, E. S., Loh, L. S., Ren, A., Warren, I. A., Lewis, J. J., Concha, C., Hebberecht, L., Wright, C. J., Walker, J. M., Foley, J., Goldberg, Z. H., Arenas-Castro, H., Salazar, C., Perry, M. W., Papa, R., ... Jiggins, C. D. (2021). Cortex cis-regulatory switches establish scale colour identity and pattern diversity in Heliconius. eLife, 10, Artículo e68549. https://doi.org/10.7554/eLife.68549, https://doi.org/10.7554/eLife.68549

@article{ae7f5b83d1384bf090bc9efbcbf6c72e,

title = "Cortex cis-regulatory switches establish scale colour identity and pattern diversity in Heliconius",

abstract = "In Heliconius butterflies, wing colour pattern diversity and scale types are controlled by a few genes of large effect that regulate colour pattern switches between morphs and species across a large mimetic radiation. One of these genes, cortex, has been repeatedly associated with colour pattern evolution in butterflies. Here we carried out CRISPR knockouts in multiple Heliconius species and show that cortex is a major determinant of scale cell identity. Chromatin accessibility profiling and introgression scans identified cis-regulatory regions associated with discrete phenotypic switches. CRISPR perturbation of these regions in black hindwing genotypes recreated a yellow bar, revealing their spatially limited activity. In the H. melpomene/timareta lineage, the candidate CRE from yellow-barred phenotype morphs is interrupted by a transposable element, suggesting that cis-regulatory structural variation underlies these mimetic adaptations. Our work shows that cortex functionally controls scale colour fate and that its cis-regulatory regions control a phenotypic switch in a modular and pattern-specific fashion.",

author = "Luca Livraghi and Hanly, {Joseph J} and {Van Bellghem}, {Steven M} and Gabriela Montejo-Kovacevich and {van der Heijden}, {Eva Sm} and Loh, {Ling Sheng} and Anna Ren and Warren, {Ian A} and Lewis, {James J} and Carolina Concha and Laura Hebberecht and Wright, {Charlotte J} and Walker, {Jonah M} and Jessica Foley and Goldberg, {Zachary H} and Henry Arenas-Castro and Camilo Salazar and Perry, {Michael W} and Riccardo Papa and Arnaud Martin and McMillan, {W Owen} and Jiggins, {Chris D}",

note = "Funding Information: Biotechnology and Biological Sciences Research Council- BB/R007500/1- Luca Livraghi, Eva SM van der Heijden, Ian A Warren Charlotte Wright, Chris D Jiggins; National Science Foundation- IOS-1656553 and IOS-1755329- Joseph J Hanly, Ling Sheng Loh, Anna Ren, Arnaud Martin; Puerto Rico Science, Technology and Research Trust- #2020-00142- Steven M Van Bellghem, Riccardo Papa; Smithsonian Institution- NSF IOS-1656389- Carolina Concha, W Owen McMillan; National Science Foundation- NSF IOS 1656389- Riccardo Papa. Publisher Copyright: {\textcopyright} Livraghi et al.",

year = "2021",

month = jul,

day = "19",

doi = "10.7554/eLife.68549",

language = "English (US)",

volume = "10",

journal = "eLife",

issn = "2050-084X",

publisher = "eLife Sciences Publications",

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Livraghi, L, Hanly, JJ, Van Bellghem, SM, Montejo-Kovacevich, G, van der Heijden, ES, Loh, LS, Ren, A, Warren, IA, Lewis, JJ, Concha, C, Hebberecht, L, Wright, CJ, Walker, JM, Foley, J, Goldberg, ZH, Arenas-Castro, H, Salazar, C, Perry, MW, Papa, R, Martin, A, McMillan, WO & Jiggins, CD 2021, 'Cortex cis-regulatory switches establish scale colour identity and pattern diversity in Heliconius', eLife, vol. 10, e68549. https://doi.org/10.7554/eLife.68549, https://doi.org/10.7554/eLife.68549

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T1 - Cortex cis-regulatory switches establish scale colour identity and pattern diversity in Heliconius

AU - Livraghi, Luca

AU - Hanly, Joseph J

AU - Van Bellghem, Steven M

AU - Montejo-Kovacevich, Gabriela

AU - van der Heijden, Eva Sm

AU - Loh, Ling Sheng

AU - Ren, Anna

AU - Warren, Ian A

AU - Lewis, James J

AU - Concha, Carolina

AU - Hebberecht, Laura

AU - Wright, Charlotte J

AU - Walker, Jonah M

AU - Foley, Jessica

AU - Goldberg, Zachary H

AU - Arenas-Castro, Henry

AU - Salazar, Camilo

AU - Perry, Michael W

AU - Papa, Riccardo

AU - Martin, Arnaud

AU - McMillan, W Owen

AU - Jiggins, Chris D

N1 - Funding Information: Biotechnology and Biological Sciences Research Council- BB/R007500/1- Luca Livraghi, Eva SM van der Heijden, Ian A Warren Charlotte Wright, Chris D Jiggins; National Science Foundation- IOS-1656553 and IOS-1755329- Joseph J Hanly, Ling Sheng Loh, Anna Ren, Arnaud Martin; Puerto Rico Science, Technology and Research Trust- #2020-00142- Steven M Van Bellghem, Riccardo Papa; Smithsonian Institution- NSF IOS-1656389- Carolina Concha, W Owen McMillan; National Science Foundation- NSF IOS 1656389- Riccardo Papa. Publisher Copyright: © Livraghi et al.

PY - 2021/7/19

Y1 - 2021/7/19

N2 - In Heliconius butterflies, wing colour pattern diversity and scale types are controlled by a few genes of large effect that regulate colour pattern switches between morphs and species across a large mimetic radiation. One of these genes, cortex, has been repeatedly associated with colour pattern evolution in butterflies. Here we carried out CRISPR knockouts in multiple Heliconius species and show that cortex is a major determinant of scale cell identity. Chromatin accessibility profiling and introgression scans identified cis-regulatory regions associated with discrete phenotypic switches. CRISPR perturbation of these regions in black hindwing genotypes recreated a yellow bar, revealing their spatially limited activity. In the H. melpomene/timareta lineage, the candidate CRE from yellow-barred phenotype morphs is interrupted by a transposable element, suggesting that cis-regulatory structural variation underlies these mimetic adaptations. Our work shows that cortex functionally controls scale colour fate and that its cis-regulatory regions control a phenotypic switch in a modular and pattern-specific fashion.

AB - In Heliconius butterflies, wing colour pattern diversity and scale types are controlled by a few genes of large effect that regulate colour pattern switches between morphs and species across a large mimetic radiation. One of these genes, cortex, has been repeatedly associated with colour pattern evolution in butterflies. Here we carried out CRISPR knockouts in multiple Heliconius species and show that cortex is a major determinant of scale cell identity. Chromatin accessibility profiling and introgression scans identified cis-regulatory regions associated with discrete phenotypic switches. CRISPR perturbation of these regions in black hindwing genotypes recreated a yellow bar, revealing their spatially limited activity. In the H. melpomene/timareta lineage, the candidate CRE from yellow-barred phenotype morphs is interrupted by a transposable element, suggesting that cis-regulatory structural variation underlies these mimetic adaptations. Our work shows that cortex functionally controls scale colour fate and that its cis-regulatory regions control a phenotypic switch in a modular and pattern-specific fashion.

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Cortex cis-regulatory switches establish scale colour identity and pattern diversity in Heliconius

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