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Genomic architecture of a genetically assimilated seasonal color pattern.

Publication ,  Journal Article
van der Burg, KRL; Lewis, JJ; Brack, BJ; Fandino, RA; Mazo-Vargas, A; Reed, RD
Published in: Science (New York, N.Y.)
November 2020
Published version (DOI)

Developmental plasticity allows genomes to encode multiple distinct phenotypes that can be differentially manifested in response to environmental cues. Alternative plastic phenotypes can be selected through a process called genetic assimilation, although the mechanisms are still poorly understood. We assimilated a seasonal wing color phenotype in a naturally plastic population of butterflies (Junonia coenia) and characterized three responsible genes. Endocrine assays and chromatin accessibility and conformation analyses showed that the transition of wing coloration from an environmentally determined trait to a predominantly genetic trait occurred through selection for regulatory alleles of downstream wing-patterning genes. This mode of genetic evolution is likely favored by selection because it allows tissue- and trait-specific tuning of reaction norms without affecting core cue detection or transduction mechanisms.

Duke Scholars

Anyi Mazo-Vargas
Author Anyi Mazo-Vargas Biology

Published In

Science (New York, N.Y.)

DOI

10.1126/science.aaz3017

EISSN

1095-9203

ISSN

0036-8075

Publication Date

November 2020

Volume

370

Issue

6517

Start / End Page

721 / 725

Related Subject Headings

  • Wings, Animal
  • Seasons
  • Pigmentation
  • Genomics
  • Genes, Insect
  • General Science & Technology
  • Gene-Environment Interaction
  • Evolution, Molecular
  • Butterflies
  • Animals
 

Citation

APA
Chicago
ICMJE
MLA
NLM
van der Burg, K. R. L., Lewis, J. J., Brack, B. J., Fandino, R. A., Mazo-Vargas, A., & Reed, R. D. (2020). Genomic architecture of a genetically assimilated seasonal color pattern. Science (New York, N.Y.), 370(6517), 721–725. https://doi.org/10.1126/science.aaz3017
Burg, Karin R. L. van der, James J. Lewis, Benjamin J. Brack, Richard A. Fandino, Anyi Mazo-Vargas, and Robert D. Reed. “Genomic architecture of a genetically assimilated seasonal color pattern.Science (New York, N.Y.) 370, no. 6517 (November 2020): 721–25. https://doi.org/10.1126/science.aaz3017.
van der Burg KRL, Lewis JJ, Brack BJ, Fandino RA, Mazo-Vargas A, Reed RD. Genomic architecture of a genetically assimilated seasonal color pattern. Science (New York, NY). 2020 Nov;370(6517):721–5.
van der Burg, Karin R. L., et al. “Genomic architecture of a genetically assimilated seasonal color pattern.Science (New York, N.Y.), vol. 370, no. 6517, Nov. 2020, pp. 721–25. Epmc, doi:10.1126/science.aaz3017.
van der Burg KRL, Lewis JJ, Brack BJ, Fandino RA, Mazo-Vargas A, Reed RD. Genomic architecture of a genetically assimilated seasonal color pattern. Science (New York, NY). 2020 Nov;370(6517):721–725.
Journal cover image

Published In

Science (New York, N.Y.)

DOI

10.1126/science.aaz3017

EISSN

1095-9203

ISSN

0036-8075

Publication Date

November 2020

Volume

370

Issue

6517

Start / End Page

721 / 725

Related Subject Headings

  • Wings, Animal
  • Seasons
  • Pigmentation
  • Genomics
  • Genes, Insect
  • General Science & Technology
  • Gene-Environment Interaction
  • Evolution, Molecular
  • Butterflies
  • Animals