Population variation in opsin expression in the bluefin killifish, Lucania goodei: a real-time PCR study View Full Text


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Article Info

DATE

2003-12-17

AUTHORS

R. C. Fuller, K. L. Carleton, J. M. Fadool, T. C. Spady, J. Travis

ABSTRACT

Quantitative genetics have not been used in vision studies because of the difficulty of objectively measuring large numbers of individuals. Here, we examine the effectiveness of a molecular technique, real-time PCR, as an inference of visual components in the bluefin killifish, Lucania goodei, to determine whether there is population variation in opsin expression. Previous work has shown that spring animals possess a higher frequency of UV and violet cones and a lower frequency of yellow and red cones than swamp animals. Here, we found a good qualitative match between the population differences in opsin expression and those found previously in cone frequency. Spring animals expressed higher amounts of SWS1 and SWS2B opsins (which correspond to UV and violet photopigments) and lower amounts of RH2 and LWS opsins (which correspond to yellow and red photopigments) than swamp animals. The counterintuitive pattern between color pattern, lighting environment, and vision remains. Males with blue anal fins are more abundant in swamps where animals express fewer SWS1 and SWS2B opsins and where transmission of UV/blue wavelengths is low. Understanding this system requires quantitative genetic studies. Real-time PCR is an effective tool for studies requiring inferences of visual physiology in large numbers of individuals. More... »

PAGES

147-154

References to SciGraph publications

  • 1999. Adaptation of visual pigments to the aquatic environment in ADAPTIVE MECHANISMS IN THE ECOLOGY OF VISION
  • 2002-03-09. Tuning of photoreceptor function in three mantis shrimp species that inhabit a range of depths. I. Visual pigments in JOURNAL OF COMPARATIVE PHYSIOLOGY A
  • 2001-06. Divergent sexual selection enhances reproductive isolation in sticklebacks in NATURE
  • 2003-07-18. Intraspecific variation in retinal cone distribution in the bluefin killifish, Lucania goodei in JOURNAL OF COMPARATIVE PHYSIOLOGY A
  • 1994-04. The ecology of the visual pigments of snappers (Lutjanidae) on the Great Barrier Reef in JOURNAL OF COMPARATIVE PHYSIOLOGY A
  • 1972. The Rhodopsin-Porphyropsin Visual System in PHOTOCHEMISTRY OF VISION
  • 2001-12. Visual pigments and optical habitats of surfperch (Embiotocidae) in the California kelp forest in JOURNAL OF COMPARATIVE PHYSIOLOGY A
  • 1997-10. The visual ecology of Puerto Rican anoline lizards: habitat light and spectral sensitivity in JOURNAL OF COMPARATIVE PHYSIOLOGY A
  • 1977. Evolutionary Adaptations of Fishes to the Photic Environment in THE VISUAL SYSTEM IN VERTEBRATES
  • 2002-03-09. Tuning of photoreceptor function in three mantis shrimp species that inhabit a range of depths. II. Filter pigments in JOURNAL OF COMPARATIVE PHYSIOLOGY A
  • 2001-10. Vision in the ultraviolet in CELLULAR AND MOLECULAR LIFE SCIENCES
  • 1995-02. Intraspecific variation of spectral sensitivity in threespine stickleback (Gasterosteus aculeatus) from different photic regimes in JOURNAL OF COMPARATIVE PHYSIOLOGY A
  • 2001-05. Tunable colour vision in a mantis shrimp in NATURE
  • 2002-06. Ultraviolet-based female preferences in a viviparous fish in BEHAVIORAL ECOLOGY AND SOCIOBIOLOGY
  • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1007/s00359-003-0478-z

    DOI

    http://dx.doi.org/10.1007/s00359-003-0478-z

    DIMENSIONS

    https://app.dimensions.ai/details/publication/pub.1031449537

    PUBMED

    https://www.ncbi.nlm.nih.gov/pubmed/14685760


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