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optix Drives the Repeated Convergent Evolution of Butterfly Wing Pattern Mimicry

Publication ,  Journal Article
Reed, RD; Papa, R; Martin, A; Hines, HM; Counterman, BA; Pardo Diaz, C; Jiggins, CD; Chamberlain, NL; Kronforst, MR; Chen, R; Halder, G ...
Published in: Science
August 2011

Duke Scholars

H. Frederik Nijhout
Author H. Frederik Nijhout Biology

Published In

Science

Publication Date

August 2011

Volume

333

Start / End Page

1137 / 1141

Related Subject Headings

  • Wings, Animal
  • Transcription, Genetic
  • Transcription Factors
  • Species Specificity
  • Selection, Genetic
  • Regulatory Elements, Transcriptional
  • Pigmentation
  • Phenotype
  • Moths
  • Molecular Sequence Data
 

Citation

APA
Chicago
ICMJE
MLA
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Reed, R. D., Papa, R., Martin, A., Hines, H. M., Counterman, B. A., Pardo Diaz, C., … McMillan, W. O. (2011). optix Drives the Repeated Convergent Evolution of Butterfly Wing Pattern Mimicry. Science, 333, 1137–1141.
Reed, R. D., R. Papa, A. Martin, H. M. Hines, B. A. Counterman, C. Pardo Diaz, C. D. Jiggins, et al. “optix Drives the Repeated Convergent Evolution of Butterfly Wing Pattern Mimicry.” Science 333 (August 2011): 1137–41.
Reed RD, Papa R, Martin A, Hines HM, Counterman BA, Pardo Diaz C, et al. optix Drives the Repeated Convergent Evolution of Butterfly Wing Pattern Mimicry. Science. 2011 Aug;333:1137–41.
Reed, R. D., et al. “optix Drives the Repeated Convergent Evolution of Butterfly Wing Pattern Mimicry.” Science, vol. 333, Aug. 2011, pp. 1137–41.
Reed RD, Papa R, Martin A, Hines HM, Counterman BA, Pardo Diaz C, Jiggins CD, Chamberlain NL, Kronforst MR, Chen R, Halder G, Nijhout HF, McMillan WO. optix Drives the Repeated Convergent Evolution of Butterfly Wing Pattern Mimicry. Science. 2011 Aug;333:1137–1141.

Published In

Science

Publication Date

August 2011

Volume

333

Start / End Page

1137 / 1141

Related Subject Headings

  • Wings, Animal
  • Transcription, Genetic
  • Transcription Factors
  • Species Specificity
  • Selection, Genetic
  • Regulatory Elements, Transcriptional
  • Pigmentation
  • Phenotype
  • Moths
  • Molecular Sequence Data