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The symbiotic anthozoan: a physiological chimera between alga and animal

The symbiotic anthozoan: a physiological chimera between alga and animal
The symbiotic anthozoan: a physiological chimera between alga and animal
The symbiotic life style involves mutual ecological, physiological, structural, and molecular adaptations between the partners. In the symbiotic association between anthozoans and photosynthetic dinoflagellates (Symbiodinium spp., also called zooxanthellae), the presence of the endosymbiont in the animal cells has constrained the host in several ways. It adopts behaviors that optimize photosynthesis of the zooxanthellae. The animal partner has had to evolve the ability to absorb and concentrate dissolved inorganic carbon from seawater in order to supply the symbiont's photosynthesis. Exposing itself to sunlight to illuminate its symbionts sufficiently also subjects the host to damaging solar ultraviolet radiation. Protection against this is provided by biochemical sunscreens, including mycosporine-like amino acids, themselves produced by the symbiont and translocated to the host. Moreover, to protect itself against oxygen produced during algal photosynthesis, the cnidarian host has developed certain antioxidant defenses that are unique among animals. Finally, living in nutrient-poor waters, the animal partner has developed several mechanisms for nitrogen assimilation and conservation such as the ability to absorb inorganic nitrogen, highly unusual for a metazoan. These facts suggest a parallel evolution of symbiotic cnidarians and plants, in which the animal host has adopted characteristics usually associated with phototrophic organisms.
1540-7063
595-604
Furla, Paola
d3e7b181-371a-4a7a-8749-594e704d10d7
Allemand, Denis
a9a9145a-9129-4827-83ae-f204d180d945
Shick, J. Malcolm
c2b6035c-c531-4846-b54d-303db12afe7d
Ferrier-Pagès, Christine
fd5f2d2f-82a0-43cb-ae0a-3908d3a2106e
Richier, Sophie
0fc0b375-6918-4c06-9d6f-229f6c4046ca
Plantivaux, Amandine
861ed1a3-bcee-4c1a-8871-862aa0958280
Merle, Pierre-Laurent
57d40c27-ef81-4395-9085-541acd320f3a
Tambutté, Sylvie
dd19042e-d32b-4894-93e0-14379f480d93
Furla, Paola
d3e7b181-371a-4a7a-8749-594e704d10d7
Allemand, Denis
a9a9145a-9129-4827-83ae-f204d180d945
Shick, J. Malcolm
c2b6035c-c531-4846-b54d-303db12afe7d
Ferrier-Pagès, Christine
fd5f2d2f-82a0-43cb-ae0a-3908d3a2106e
Richier, Sophie
0fc0b375-6918-4c06-9d6f-229f6c4046ca
Plantivaux, Amandine
861ed1a3-bcee-4c1a-8871-862aa0958280
Merle, Pierre-Laurent
57d40c27-ef81-4395-9085-541acd320f3a
Tambutté, Sylvie
dd19042e-d32b-4894-93e0-14379f480d93

Furla, Paola, Allemand, Denis, Shick, J. Malcolm, Ferrier-Pagès, Christine, Richier, Sophie, Plantivaux, Amandine, Merle, Pierre-Laurent and Tambutté, Sylvie (2005) The symbiotic anthozoan: a physiological chimera between alga and animal. Integrative and Comparative Biology, 45 (4), 595-604. (doi:10.1093/icb/45.4.595). (PMID:21676806)

Record type: Article

Abstract

The symbiotic life style involves mutual ecological, physiological, structural, and molecular adaptations between the partners. In the symbiotic association between anthozoans and photosynthetic dinoflagellates (Symbiodinium spp., also called zooxanthellae), the presence of the endosymbiont in the animal cells has constrained the host in several ways. It adopts behaviors that optimize photosynthesis of the zooxanthellae. The animal partner has had to evolve the ability to absorb and concentrate dissolved inorganic carbon from seawater in order to supply the symbiont's photosynthesis. Exposing itself to sunlight to illuminate its symbionts sufficiently also subjects the host to damaging solar ultraviolet radiation. Protection against this is provided by biochemical sunscreens, including mycosporine-like amino acids, themselves produced by the symbiont and translocated to the host. Moreover, to protect itself against oxygen produced during algal photosynthesis, the cnidarian host has developed certain antioxidant defenses that are unique among animals. Finally, living in nutrient-poor waters, the animal partner has developed several mechanisms for nitrogen assimilation and conservation such as the ability to absorb inorganic nitrogen, highly unusual for a metazoan. These facts suggest a parallel evolution of symbiotic cnidarians and plants, in which the animal host has adopted characteristics usually associated with phototrophic organisms.

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Published date: August 2005
Organisations: Environmental

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Local EPrints ID: 341906
URI: http://eprints.soton.ac.uk/id/eprint/341906
ISSN: 1540-7063
PURE UUID: b4d0e33f-0959-45d1-aca7-29cd2b095961

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Date deposited: 15 Aug 2012 13:54
Last modified: 14 Mar 2024 11:45

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Contributors

Author: Paola Furla
Author: Denis Allemand
Author: J. Malcolm Shick
Author: Christine Ferrier-Pagès
Author: Sophie Richier
Author: Amandine Plantivaux
Author: Pierre-Laurent Merle
Author: Sylvie Tambutté

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