Thiosulfate Elimination and Permeability in a Sulfide‐Adapted Marine Invertebrate
Autor: | Shelley L. Seto, Susan L. Wieting, Mark R. Bogan, Alissa J. Arp, David Julian |
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Rok vydání: | 1999 |
Předmět: |
chemistry.chemical_classification
Thiosulfate Sulfide Physiology Hydrogen sulfide Inorganic chemistry Radiochemistry Thiosulfates Polychaeta Hindgut Marine invertebrates Environment Adaptation Physiological Biochemistry Permeability chemistry.chemical_compound chemistry Digestive System Physiological Phenomena Time course Toxicity Animals Animal Science and Zoology Seawater Hydrogen Sulfide |
Zdroj: | Physiological and Biochemical Zoology. 72:416-425 |
ISSN: | 1537-5293 1522-2152 |
DOI: | 10.1086/316681 |
Popis: | Oxidation of hydrogen sulfide to thiosulfate is one of the best-characterized mechanisms by which animals adapted to sulfide minimize its toxicity, but the mechanism of thiosulfate elimination in these animals has remained unclear. In this study, we examined the accumulation and elimination of thiosulfate in the sulfide-adapted marine worm Urechis caupo. The coelomic fluid of U. caupo exposed to 50-100 micromol L-1 sulfide in hypoxic seawater (Po2 ca. 10 kPa) accumulated (mean+/-SD) 132+/-41 micromol L-1 thiosulfate after 2 h, reaching 227+/-113 micromol L-1 after an additional 4 h in aerated, sulfide-free seawater. In whole-animal thiosulfate clearance studies, the rate of thiosulfate elimination from the coelomic fluid followed a single exponential time course with a half-life of 6 h. The thiosulfate permeability coefficient of isolated preparations mounted in diffusion chambers was 7.6x10-5+/-7. 7x10-5 cm s-1 for the hindgut and 5.5x10-7+/-2.7x10-7 cm s-1 for the body wall. These rates were independent of the direction of net efflux (mucosal-to-serosal or serosal-to-mucosal). Using a simple mathematical model of U. caupo that incorporates the thiosulfate permeability coefficients, the thiosulfate half-life was calculated to be 23 h without hindgut ventilation but less than 1 h with normal hindgut ventilation. Based on this information, we propose that passive thiosulfate diffusion across the hindgut is adequate to explain the observed rates of thiosulfate elimination. |
Databáze: | OpenAIRE |
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