Segment polarity gene interactions modulate epidermal patterning in Drosophila embryos

Amy Bejsovec, Eric Wieschaus

Research output: Contribution to journalArticlepeer-review

152 Scopus citations


Each segment of a Drosophila larva shows a precisely organized pattern of cuticular structures, indicating diverse cellular identities in the underlying epidermis. Mutations in the segment polarity genes alter the cuticle pattern secreted by the epidermal cells; these mutant patterns provide clues about the role that each gene product plays in the development of wild-type epidermal pattern. We have analyzed embryos that are multiply mutant for five key patterning genes: wingless, patched, engrailed, naked and hedgehog. Our results indicate that wild-type activity of these five segment polarity genes can account for most of the ventral pattern elements and that their gene products interact extensively to specify the diverse cellular identities within the epidermis. Two pattern elements can be correlated with individual gene action: wingless is required for formation of naked cuticle and engrailed is required for formation of the first row of denticles in each abdominal denticle belt. The remaining cell types can be produced by different combinations of the five gene activities, wingless activity generates the diversity of cell types within the segment, but each specific cell identity depends on the activity of patched, engrailed, naked and hedgehog. These molecules modulate the distribution and interpretation of wingless signalling activity in the ventral epidermal cells and, in addition, each can contribute to pattern through a pathway independent of the wingless signalling pathway.

Original languageEnglish (US)
Pages (from-to)501-517
Number of pages17
Issue number2
StatePublished - Oct 1993

All Science Journal Classification (ASJC) codes

  • Molecular Biology
  • Developmental Biology


  • Drosophila
  • Engrailed
  • Epidermal patterning
  • Gene interaction
  • Hedgehog
  • Naked
  • Patched
  • Pattern formation
  • Segment polarity
  • Wingless


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