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Experimental ocean acidification alters the allocation of metabolic energy
Energy is required to maintain physiological homeostasis in response to environmental change. Although responses to environmental stressors frequently are assumed to involve... -
Effects of increased CO2 on fish gill and plasma proteome
Ocean acidification and warming are both primarily caused by increased levels of atmospheric CO2, and marine organisms are exposed to these two stressors simultaneously.... -
Proteomic and metabolomic responses of Pacific oyster Crassostrea gigas to el...
The gradually increased atmospheric CO2 partial pressure (pCO2) has thrown the carbonate chemistry off balance and resulted in decreased seawater pH in marine ecosystem, termed... -
Responses of the Emiliania huxleyi Proteome to Ocean Acidification
Ocean acidification due to rising atmospheric CO2 is expected to affect the physiology of important calcifying marine organisms, but the nature and magnitude of change is yet to... -
Elevated CO2 alters larval proteome and its phosphorylation status in the com...
Ocean acidification (OA) is beginning to have noticeable negative impact on calcification rate, shell structure and physiological energy budgeting of several marine organisms;... -
Seawater carbonate chemistry and growth, calcification of Thoracosphaera heim...
Ocean acidification is considered a major threat to marine ecosystems and may particularly affect calcifying organisms such as corals, foraminifera and coccolithophores. Here we... -
Analysis of Pacific oyster larval proteome and its response to high-CO2
Most calcifying organisms show depressed metabolic, growth and calcification rates as symptoms to high-CO(2) due to ocean acidification (OA) process. Analysis of the global... -
Differential acid-base regulation in various gills of the green crab Carcinus...
Euryhaline decapod crustaceans possess an efficient regulation apparatus located in the gill epithelia, providing a high adaptation potential to varying environmental abiotic... -
(Figures 3A+C) Changes of protein abundance in response to ocean acidificatio...
Statistical analysis was performed by t test followed by the Benjamini-Hochberg procedure for the false discovery rate correction (FDR at 0.05). -
Fig. 4. Thermal hysteresis vs. recombinant Antifreeze protein (AFP) concentra...
This dataset has no description
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Fig. 3. Thermal hysteresis versus buffer salinity for different recombinant A...
This dataset has no description
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(Table A.1) Identified proteome based on zebrafish database
This dataset has no description
