Molecular Basis for Ultraviolet Vision in Invertebrates
Open Access
- 26 November 2003
- journal article
- Published by Society for Neuroscience in Journal of Neuroscience
- Vol. 23 (34), 10873-10878
- https://doi.org/10.1523/jneurosci.23-34-10873.2003
Abstract
Invertebrates are sensitive to a broad spectrum of light that ranges from UV to red. Color sensitivity in the UV plays an important role in foraging, navigation, and mate selection in both flying and terrestrial invertebrate animals. Here, we show that a single amino acid polymorphism is responsible for invertebrate UV vision. This residue (UV: lysine vs blue:asparagine or glutamate) corresponds to amino acid position glycine 90 (G90) in bovine rhodopsin, a site affected in autosomal dominant human congenital night blindness. Introduction of the positively charged lysine in invertebrates is likely to deprotonate the Schiff base chromophore and produce an UV visual pigment. This same position is responsible for regulating UV versus blue sensitivity in several bird species, suggesting that UV vision has arisen independently in invertebrate and vertebrate lineages by a similar molecular mechanism.Keywords
This publication has 45 references indexed in Scilit:
- THEEVOLUTION OFCOLORVISION ININSECTSAnnual Review of Entomology, 2001
- Mechanisms of Spectral Tuning in Blue Cone Visual PigmentsJournal of Biological Chemistry, 1998
- Time-Resolved Spectroscopy of the Early Photolysis Intermediates of Rhodopsin Schiff Base Counterion MutantsBiochemistry, 1997
- Ultraviolet resonance Raman evidence for the absence of tyrosinate in octopus rhodopsin and the participation of Trp residues in the transition to acid metarhodopsinFEBS Letters, 1996
- Spectroscopic Evidence for Altered Chromophore−Protein Interactions in Low-Temperature Photoproducts of the Visual Pigment Responsible for Congenital Night BlindnessBiochemistry, 1996
- Characterization of the Mutant Visual Pigment Responsible for Congenital Night Blindness: A Biochemical and Fourier-Transform Infrared Spectroscopy StudyBiochemistry, 1996
- Rhodopsin mutation G90D and a molecular mechanism for congenital night blindnessNature, 1994
- Determinants of visual pigment absorbance: identification of the retinylidene Schiff's base counterion in bovine rhodopsinBiochemistry, 1990
- Effect of Carboxylic Acid Side Chains on the Absorption Maximum of Visual PigmentsScience, 1989
- Resonance Raman spectroscopy of an ultraviolet sensitive insect rhodopsinBiochemistry, 1987