Origin of the mechanism of phenotypic plasticity in satyrid butterfly eyespots

Shivam Bhardwaj; Lim Si Hui Jolander; Markus R. Wenk; Jeffrey C. Oliver; H. Frederik Nijhout; Antonia Monteiro

doi:10.7554/eLife.49544

Origin of the mechanism of phenotypic plasticity in satyrid butterfly eyespots

Shivam Bhardwaj^*, Lim Si Hui Jolander, Markus R. Wenk, Jeffrey C. Oliver, H. Frederik Nijhout, Antonia Monteiro

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

40 Citations (Scopus)

Abstract

Plasticity is often regarded as a derived adaptation to help organisms survive in variable but predictable environments, however, we currently lack a rigorous, mechanistic examination of how plasticity evolves in a large comparative framework. Here, we show that phenotypic plasticity in eyespot size in response to environmental temperature observed in Bicyclus anynana satyrid butterflies is a complex derived adaptation of this lineage. By reconstructing the evolution of known physiological and molecular components of eyespot size plasticity in a comparative framework, we showed that 20E titer plasticity in response to temperature is a pre-adaptation shared by all butterfly species examined, whereas expression of EcR in eyespot centers, and eyespot sensitivity to 20E, are both derived traits found only in a subset of species with eyespots.

Original language	English
Article number	e49544
Journal	eLife
Volume	9
DOIs	https://doi.org/10.7554/eLife.49544
Publication status	Published - Feb 2020
Externally published	Yes

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10.7554/eLife.49544

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title = "Origin of the mechanism of phenotypic plasticity in satyrid butterfly eyespots",

abstract = "Plasticity is often regarded as a derived adaptation to help organisms survive in variable but predictable environments, however, we currently lack a rigorous, mechanistic examination of how plasticity evolves in a large comparative framework. Here, we show that phenotypic plasticity in eyespot size in response to environmental temperature observed in Bicyclus anynana satyrid butterflies is a complex derived adaptation of this lineage. By reconstructing the evolution of known physiological and molecular components of eyespot size plasticity in a comparative framework, we showed that 20E titer plasticity in response to temperature is a pre-adaptation shared by all butterfly species examined, whereas expression of EcR in eyespot centers, and eyespot sensitivity to 20E, are both derived traits found only in a subset of species with eyespots.",

author = "Shivam Bhardwaj and Jolander, \{Lim Si Hui\} and Wenk, \{Markus R.\} and Oliver, \{Jeffrey C.\} and \{Frederik Nijhout\}, H. and Antonia Monteiro",

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doi = "10.7554/eLife.49544",

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T1 - Origin of the mechanism of phenotypic plasticity in satyrid butterfly eyespots

AU - Bhardwaj, Shivam

AU - Jolander, Lim Si Hui

AU - Wenk, Markus R.

AU - Oliver, Jeffrey C.

AU - Frederik Nijhout, H.

AU - Monteiro, Antonia

PY - 2020/2

Y1 - 2020/2

N2 - Plasticity is often regarded as a derived adaptation to help organisms survive in variable but predictable environments, however, we currently lack a rigorous, mechanistic examination of how plasticity evolves in a large comparative framework. Here, we show that phenotypic plasticity in eyespot size in response to environmental temperature observed in Bicyclus anynana satyrid butterflies is a complex derived adaptation of this lineage. By reconstructing the evolution of known physiological and molecular components of eyespot size plasticity in a comparative framework, we showed that 20E titer plasticity in response to temperature is a pre-adaptation shared by all butterfly species examined, whereas expression of EcR in eyespot centers, and eyespot sensitivity to 20E, are both derived traits found only in a subset of species with eyespots.

AB - Plasticity is often regarded as a derived adaptation to help organisms survive in variable but predictable environments, however, we currently lack a rigorous, mechanistic examination of how plasticity evolves in a large comparative framework. Here, we show that phenotypic plasticity in eyespot size in response to environmental temperature observed in Bicyclus anynana satyrid butterflies is a complex derived adaptation of this lineage. By reconstructing the evolution of known physiological and molecular components of eyespot size plasticity in a comparative framework, we showed that 20E titer plasticity in response to temperature is a pre-adaptation shared by all butterfly species examined, whereas expression of EcR in eyespot centers, and eyespot sensitivity to 20E, are both derived traits found only in a subset of species with eyespots.

UR - https://www.scopus.com/pages/publications/85079218740

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AN - SCOPUS:85079218740

SN - 2050-084X

VL - 9

JO - eLife

JF - eLife

M1 - e49544

ER -

Origin of the mechanism of phenotypic plasticity in satyrid butterfly eyespots

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