Eyeshine and spectral tuning of long wavelength-sensitive rhodopsins: no evidence for red-sensitive photoreceptors among five Nymphalini butterfly species

doi:10.1242/jeb.01453

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First published online February 4, 2005
Journal of Experimental Biology 208, 687-696 (2005)
Published by The Company of Biologists 2005
doi: 10.1242/jeb.01453

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Articles by Briscoe, A. D.

Articles by Bernard, G. D.

Eyeshine and spectral tuning of long wavelength-sensitive rhodopsins: no evidence for red-sensitive photoreceptors among five Nymphalini butterfly species

Adriana D. Briscoe¹^,* and Gary D. Bernard²

¹ Comparative and Evolutionary Physiology Group, Department of Ecology and Evolutionary Biology, University of California, Irvine, CA 92697, USA
² Department of Electrical Engineering, University of Washington, Seattle, WA 98195-2500, USA

^* Author for correspondence (e-mail: abriscoe{at}uci.edu)

Accepted 15 December 2004

Spectral tuning of rhodopsins commonly refers to the effectsof opsin amino acid substitutions on the wavelength for peaksensitivity of the rhodopsin absorption spectrum. Nymphalinibutterflies provide an opportunity for identifying some of theamino acid substitutions responsible for insect rhodopsin spectraltuning because the majority of photoreceptor cells (R3-9) inthe adult retina express only a single long wavelength-sensitive(LWS) opsin mRNA transcript. Therefore, the opsin genotype canbe directly correlated with its phenotype. We determined theLWS opsin gene sequence from cDNA of the mourning cloak Nymphalisantiopa, and from genomic DNA of the malachite Siproeta stelenesand the peacock Inachis io. Using an epi-microspectrophotometerwe examined each butterfly's eyeshine for photochemical evidenceof multiple LWS rhodopsins and found only one. We then performedpartial-bleaching experiments to obtain absorbance spectra forthe LWS rhodopsins of all three species as well as from anothernymphalid, the buckeye Junonia coenia. The isolated LWS opsingene sequences varied in length from 1437-1612 bp and encoderhodopsins R522 (S. stelenes), R530 (I. io), R534 (N. antiopa)and, together with a previously published sequence, R510 (J.coenia). Comparative sequence analysis indicates that the S.stelenes rhodopsin is slightly blue-shifted compared to thetypical 530 nm lepidopteran rhodopsin because of the presenceof a S138A substitution at a homologous site that in mammalian MWS/LWSrhodopsins causes a 5 nm blue-shift. The difference in peakabsorption between R522 of S. stelenes and R530 of Inachis iois therefore largely accounted for by this substitution. Thissuggests that spectral tuning mechanisms employing the S138Amay have evolved in parallel in mammalian and butterfly MWS/LWSrhodopsins across 500 million years of evolution.

Key words: color vision, rhodopsin, photoreceptor, spectral tuning, Lepidoptera, Inachis io, Junonia coenia, Nymphalis antiopa, Siproeta stelenes, Vanessa cardui

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