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Ultrabithorax is required for membranous wing identity in the beetle Tribolium castaneum

Author

Listed:
  • Yoshinori Tomoyasu

    (Kansas State University)

  • Scott R. Wheeler

    (Washington University School of Medicine
    The University of North Carolina at Chapel Hill)

  • Robin E. Denell

    (Kansas State University)

Abstract

The two pairs of wings that are characteristic of ancestral pterygotes (winged insects) have often undergone evolutionary modification. In the fruitfly, Drosophila melanogaster, differences between the membranous forewings and the modified hindwings (halteres) depend on the Hox gene Ultrabithorax (Ubx). The Drosophila forewings develop without Hox input, while Ubx represses genes that are important for wing development, promoting haltere identity1,2. However, the idea that Hox input is important to the morphologically specialized wing derivatives such as halteres, and not the more ancestral wings, requires examination in other insect orders. In beetles, such as Tribolium castaneum, it is the forewings that are modified (to form elytra), while the hindwings retain a morphologically more ancestral identity. Here we show that in this beetle Ubx ‘de-specializes’ the hindwings, which are transformed to elytra when the gene is knocked down. We also show evidence that elytra result from a Hox-free state, despite their diverged morphology. Ubx function in the hindwing seems necessary for a change in the expression of spalt, iroquois and achaete-scute homologues from elytron-like to more typical wing-like patterns. This counteracting effect of Ubx in beetle hindwings represents a previously unknown mode of wing diversification in insects.

Suggested Citation

  • Yoshinori Tomoyasu & Scott R. Wheeler & Robin E. Denell, 2005. "Ultrabithorax is required for membranous wing identity in the beetle Tribolium castaneum," Nature, Nature, vol. 433(7026), pages 643-647, February.
  • Handle: RePEc:nat:nature:v:433:y:2005:i:7026:d:10.1038_nature03272
    DOI: 10.1038/nature03272
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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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