Coexpression of two visual pigments in a photoreceptor causes an abnormally broad spectral sensitivity in the eye of the butterfly Papilio xuthus

K Arikawa*, S Mizuno, M Kinoshita, DG Stavenga

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

92 Citations (Scopus)
289 Downloads (Pure)

Abstract

The compound eye of the butterfly Papilio xuthus consists of three different types of ommatidia, each containing nine photoreceptor cells (R1 - R9). We have found previously that the R5 - R8 photoreceptors of type II ommatidia coexpress two different mRNAs, encoding opsins of green- and orange-red-absorbing visual pigments (Kitamoto et al., 1998). Do these cells contain two functionally distinct visual pigments? First, we identified the sensitivity spectrum of these photoreceptors by using combined intracellular recording and dye injection. We thus found that the R5 - R8 of type II ommatidia have a characteristic sensitivity spectrum extending over an excessively broad spectral range, from the violet to the red region; the photoreceptors are therefore termed broadband photoreceptors. The spectral shape was interpreted with a computational model for type II ommatidia, containing a UV visual pigment in cells R1 and R2, two green visual pigments in cells R3 and R4, a far-UV-absorbing screening pigment (3-hydroxyretinol) in the distal part of the ommatidium, and a red-screening pigment that surrounds the rhabdom. The modeling suggests that both visual pigments in the R5 - R8 photoreceptors participate in phototransduction. This work provides the first compelling evidence that multiple visual pigments participate in phototransduction in single invertebrate photoreceptors.

Original languageEnglish
Pages (from-to)4527-4532
Number of pages6
JournalThe Journal of Neuroscience
Volume23
Issue number11
Publication statusPublished - 1-Jun-2003

Keywords

  • vision
  • color
  • optical filters
  • insects
  • rhodopsin
  • signal transduction
  • HISTOLOGICAL LOCALIZATION
  • CONE PHOTORECEPTOR
  • COMPOUND EYE
  • S-OPSIN
  • ULTRAVIOLET
  • RETINA
  • RECEPTORS
  • IDENTIFICATION
  • EXPRESSION
  • DROSOPHILA

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