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Manipulation of insulin signaling phenocopies evolution of a host-associated polyphenism

Author

Listed:
  • Meghan M. Fawcett

    (Colby College)

  • Mary C. Parks

    (Colby College)

  • Alice E. Tibbetts

    (Colby College)

  • Jane S. Swart

    (Colby College)

  • Elizabeth M. Richards

    (Colby College)

  • Juan Camilo Vanegas

    (Colby College)

  • Meredith Cenzer

    (University of California, Davis)

  • Laura Crowley

    (Colby College
    Columbia University Medical Center)

  • William R. Simmons

    (Colby College
    National Human Genome Research Institute)

  • Wenzhen Stacey Hou

    (Colby College)

  • David R. Angelini

    (Colby College)

Abstract

Plasticity, the capacity of an organism to respond to its environment, is thought to evolve through changes in development altering the integration of environmental cues. In polyphenism, a discontinuous plastic response produces two or more phenotypic morphs. Here we describe evolutionary change in wing polyphenism and its underlying developmental regulation in natural populations of the red-shouldered soapberry bug, Jadera haematoloma (Insecta: Hemiptera: Rhopalidae) that have adapted to a novel host plant. We find differences in the fecundity of morphs in both sexes and in adult expression of insulin signaling components in the gonads. Further, the plastic response of ancestral-state bugs can be shifted to resemble the reaction norm of derived bugs by the introduction of exogenous insulin or RNA interference targeting the insulin signaling component encoded by FoxO. These results suggest that insulin signaling may be one pathway involved in the evolution of this polyphenism, allowing adaptation to a novel nutritional environment.

Suggested Citation

  • Meghan M. Fawcett & Mary C. Parks & Alice E. Tibbetts & Jane S. Swart & Elizabeth M. Richards & Juan Camilo Vanegas & Meredith Cenzer & Laura Crowley & William R. Simmons & Wenzhen Stacey Hou & David , 2018. "Manipulation of insulin signaling phenocopies evolution of a host-associated polyphenism," Nature Communications, Nature, vol. 9(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-04102-1
    DOI: 10.1038/s41467-018-04102-1
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    Cited by:

    1. Jin-Li Zhang & Sun-Jie Chen & Xin-Yang Liu & Armin P. Moczek & Hai-Jun Xu, 2022. "The transcription factor Zfh1 acts as a wing-morph switch in planthoppers," Nature Communications, Nature, vol. 13(1), pages 1-13, December.

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