Abstract
Most deep-sea fish have visual pigments that are most sensitive to wavelengths around 460-490 nm, the intensity maxima of both conventional blue bioluminescence and dim residual sunlight1. The predatory deep-sea dragon fish Malacosteus niger, the closely related Aristostomias sp. and Pachystomias microdon can, in addition to blue bioluminescence, also emit far-red light from suborbital photophores2, which is invisible to other deep-sea animals. Whereas Aristostomias sp. enhances its long-wavelength sensitivity using visual pigments that are unusually red sensitive3, we now report that M. niger attains the same result using a derivative of chlorophyll as a photosensitizer.
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References
Douglas, R. H., Partridge, J. C. & Hope, A. J. J. Comp. Physiol. A 177, 111–122 (1984).
Widder, E. A., Latz, M. I., Herring, P. J. & Case, J. F. Science 225, 512–514 (1995).
Partridge, J. C. & Douglas, R. H. Nature 375, 21–22 (1995).
Fitzgibbon, J. et al. Gene 164, 273–277 (1995).
Partridge, J. C., Shand, J., Archer, S. N., Lythgoe, J. N. & van Groningen-Luybben, W. A. H. M. J. Comp. Physiol A 164, 513–529 (1989).
Bowmaker, J. K., Dartnall, H. J. A. & Herring, P. J. J. Comp. Physiol. A 163, 685–698 (1988).
Hynninen, P. H. in Chlorophylls(ed. Scheer, H.) 145-209 (CRC Press, Boca Raton, 1991).
Jensen, N.-H., Willbrandt, R. & Bensasson, R. V. J. Am. Chem. Soc. 111, 7877–7888 (1989).
Seely, G. R. Photochem. Photobiol. 27, 639–654 (1978).
Krasnovsky, A. A. J et al. Photochem. Photobiol. B: Biol. 5, 245–254 (1990).
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Douglas, R., Partridge, J., Dulai, K. et al. Dragon fish see using chlorophyll. Nature 393, 423–424 (1998). https://doi.org/10.1038/30871
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DOI: https://doi.org/10.1038/30871
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