Data_Sheet_5_Dilution of Seawater Affects the Ca2 + Transport in the Outer Mantle Epithelium of Crassostrea gigas.PDF

Varying salinities of coastal waters are likely to affect the physiology and ion transport capabilities of calcifying marine organisms such as bivalves. To investigate the physiological effect of decreased environmental salinity in bivalves, adult oysters (Crassostrea gigas) were exposed for 14 days...

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Bibliographic Details
Main Authors: J. Kirsikka Sillanpää, Joao Carlos dos Reis Cardoso, Rute Castelo Félix, Liliana Anjos, Deborah Mary Power, Kristina Sundell
Format: Dataset
Language:unknown
Published: 2020
Subjects:
Physiology
Exercise Physiology
Nutritional Physiology
Reproduction
Cell Physiology
Systems Physiology
Animal Physiology - Biophysics
Animal Physiology - Cell
Animal Physiology - Systems
Comparative Physiology
Physiology not elsewhere classified
Ca2+-ATPase
Na+/Ca2+-exchanger
calcium channel
Na+/K+-ATPase
calcification
salinity
Crassostrea gigas
Online Access:https://doi.org/10.3389/fphys.2020.00001.s005
https://figshare.com/articles/Data_Sheet_5_Dilution_of_Seawater_Affects_the_Ca2_Transport_in_the_Outer_Mantle_Epithelium_of_Crassostrea_gigas_PDF/11680749
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Summary:Varying salinities of coastal waters are likely to affect the physiology and ion transport capabilities of calcifying marine organisms such as bivalves. To investigate the physiological effect of decreased environmental salinity in bivalves, adult oysters (Crassostrea gigas) were exposed for 14 days to 50% seawater (14) and the effects on mantle ion transport, electrophysiology and the expression of Ca 2+ transporters and channels relative to animals maintained in full strength sea water (28) was evaluated. Exposure of oysters to a salinity of 14 decreased the active mantle transepithelial ion transport and specifically affected Ca 2+ transfer. Gene expression of the Na + /K + -ATPase and the sarco(endo)plasmic reticulum Ca 2+ -ATPase was decreased whereas the expression of the T-type voltage-gated Ca channel and the Na + /Ca 2+ -exchanger increased compared to animals maintained in full SW. The results indicate that decreased environmental salinities will most likely affect not only osmoregulation but also bivalve biomineralization and shell formation.

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