FN Archimer Export Format PT J TI Ecophysiological and metabolic adaptations to sulphide exposure of the oyster Crassostrea gigas BT AF LE MOULLAC, Gilles CHEIZE, Marie GASTINEAU, Olivier DANIEL, Jean-Yves LE COZ, Jean-Rene HUVET, Arnaud MOAL, Jeanne POUVREAU, Stephane VAN WORMHOUDT, A SAMAIN, Jean-Francois AS 1:1;2:2;3:2;4:2;5:2;6:2;7:2;8:1;9:3;10:2; FF 1:PDG-DOP-DCOP-AQUAPOL-LDHP;2:PDG-DOP-DCB-PFOM-PI;3:PDG-DOP-DCB-PFOM-ARN;4:PDG-DOP-DCB-PFOM-PI;5:PDG-DOP-DCB-PFOM-PI;6:PDG-DOP-DCB-PFOM-PI;7:PDG-DOP-DCB-PFOM-PI;8:PDG-DOP-DCB-PFOM-PI;9:;10:PDG-DOP-DCB-PFOM-PI; C1 IFREMER, UMR Physiol & Ecophysiol Mollusques Marins 100, F-29840 Argenton En Landunvez, France. IFREMER, Ctr Brest, UMR Physiol & Ecophysiol Mollusques Marins 100, F-29280 Plouzane, France. Museum Natl Hist Nat, Stn Biol Marine, UMR Biol Organismes & Ecosyst Marines 5178, F-29900 Concarneau, France. C2 IFREMER, FRANCE IFREMER, FRANCE MNHN, FRANCE SI TAHITI BREST ARGENTON SE PDG-DOP-DCOP-AQUAPOL-LDHP PDG-DOP-DCB-PFOM-PI PDG-DOP-DCB-PFOM-ARN IN WOS Ifremer jusqu'en 2018 copubli-france IF 0.576 TC 2 UR https://archimer.ifremer.fr/doc/2008/publication-3924.pdf LA English DT Article DE ;ATP;AEC;Electron transport system;Succcinate;Alanine;Phosphoenolpyruvate carboxykinase;Pyruvate kinase;Oxygen consumption;Clearance rate;Crassostrea gigas;Sulphide;Oyster AB The purpose of this study is to examine the response of the oyster Crassostrea gigas to sulphide at different biological scales. A first experiment was designed to measure for 20 h the clearance (CR) and oxygen consumption (OC) rates of oysters exposed at different concentrations of sulphide (0, 3, 6, 12, 20, and 40 mu M). The second experiment was carried out to evaluate the metabolic adaptations to chronic sulphide exposure for 10 days by measuring PK and PEPCK enzyme activities, succinate and alanine content, the adenylate energy charge (AEC), and the activity of the electron transport system (ETS)in whole oysters at above 20 mu M. PK and PEPCK mRNAs and enzyme activities have been measured in adductor muscle. When exposed to sulphide above 20 mu M, CR stopped, whereas oyster maintained their average OC rate between 1 and 2 mg O-2 h(-1) g(-1) dw. In the second experiment, sulphide exposure of oysters resulted in higher mortality, reduced the glycolytic flux by inhibiting the PK activity and decreased the ETS activity leading to a lower AEC. At day 10, a kind of recovery took place: the ETS activity and AEC of oysters exposed to sulphide increased to the level of the control oysters. In the adductor muscle, sulphide did not affect the transcriptional level of PK; PK was only regulated at enzyme level. Conversely, PEPCK was regulated only at transcriptional level. Nevertheless, muscle exhibited a wholly anaerobic metabolism by the significant increase of alanine and succinate contents followed by the significantly decrease of the ATP content during the 10 days of the experiment. This experiment showed that sulphide involved partially the whole oyster and wholly the adductor muscle in an anaerobic pathway of energy production; but oxygen was needed for the detoxification of the organism. PY 2008 PD APR SO Journal of Shellfish Research SN 0730-8000 PU National Shellfisheries Association VL 27 IS 2 UT 000254880600015 BP 355 EP 363 ID 3924 ER EF