Data from: A molecular mechanism for bright color variation in parrots

  • Jindřich Brejcha (Creator)
  • Petr Marsik (Creator)
  • Peter Mojzeš (Creator)
  • Yohey Ogawa (Creator)
  • Paulo Pereira (Creator)
  • Cristiana Marques (Creator)
  • Ricardo Lopes (Creator)
  • Pedro Araujo (Creator)
  • Uri Abdu (Creator)
  • Michaël Nicolaï (Creator)
  • Pedro Andrade (Creator)
  • Miguel Carneiro (Creator)
  • Sandra Afonso (Creator)
  • Joseph Corbo (Creator)
  • Rita Afonso (Creator)
  • Yu Liu (Creator)
  • Stephen Sabatino (Creator)
  • Soraia Barbosa (Creator)
  • Michael White (Creator)
  • Gerben Debruyn (Creator)
  • Roberto Arbore (Creator)
  • Shatadru Ghosh Roy (Creator)
  • Simon Yung Wa Sin (Creator)
  • Alison Cloutier (Creator)
  • Emily Shui Kei Poon (Creator)

Dataset

Description

Parrots produce stunning plumage colors through unique pigments called psittacofulvins. However, the mechanism underlying their ability to generate a spectrum of vibrant yellows, reds, and greens remains enigmatic. Here, we uncover a unifying chemical basis for a wide range of parrot plumage colors, which result from the selective deposition of red aldehyde- and yellow carboxyl-containing psittacofulvin molecules in developing feathers. Through genetic mapping, biochemical assays, and single-cell genomics, we identified a critical player in this process, the aldehyde dehydrogenase ALDH3A2, which oxidizes aldehyde psittacofulvins into carboxyl forms in late-differentiating keratinocytes during feather development. The simplicity of the underlying molecular mechanism — in which a single enzyme influences the balance of red and yellow pigments — offers an explanation for the exceptional evolutionary lability of parrot coloration.
Date made available5 Sep 2024
PublisherDryad

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