Add to ORKGThe growth and development of marine fish larvae fed copepods is superior to those fed rotifers, but the underlying molecular reasons for this are unclear. In the following study we compared the effects of such diets on redox regulation pathways during development of Atlantic cod (Gadus morhua) larvae. Cod larvae were fed a control diet of copepods or the typical rotifer/Artemia diet commonly used in commercial marine fish hatcheries, from first feeding until after metamorphosis. The oxidised and reduced glutathione levels, the redox potential, and the mRNA expression of 100 genes in redox system pathways were then compared between treatments during larval development. We found that rotifer/Artemia-fed cod larvae had lower levels of oxidise...
Fish tissues, particularly rich in n-3 PUFA, are prone to lipid peroxidation that can damage cellula...
Compensatory growth may increase molecular oxidative damage, which may be mitigated through the inta...
Considering the well-known problems arising from the use of rotifers and Artemia as live prey in lar...
The growth and development of marine fish larvae fed copepods is superior to those fed rotifers, but...
AbstractThe growth and development of marine fish larvae fed copepods is superior to those fed rotif...
We studied molecular effects (RNAseq and qPCR) of first feeding prey types (copepods or rotifers/Art...
The current commercial production protocols for Atlantic cod depend on enriched rotifers and Artemia...
Accumulating evidence indicates a close relationship between oxidative stress and growth rate in fis...
With regard to predicted oceanic warming, we studied the effects of heat stress on the redox system ...
Production of high quality juveniles is still a bottleneck in the intensive culture of cod (Gadus mo...
Dynamics between hypertrophy (increase in cell size) and hyperplasia (increase in cell numbers) of w...
Highlights: • Larvae upregulate genes associated with fatty acid and glycogen synthesis under moder...
AbstractWith regard to predicted oceanic warming, we studied the effects of heat stress on the redox...
Fish tissues, particularly rich in n-3 PUFA, are prone to lipid peroxidation that can damage cellula...
Compensatory growth may increase molecular oxidative damage, which may be mitigated through the inta...
Considering the well-known problems arising from the use of rotifers and Artemia as live prey in lar...
The growth and development of marine fish larvae fed copepods is superior to those fed rotifers, but...
AbstractThe growth and development of marine fish larvae fed copepods is superior to those fed rotif...
We studied molecular effects (RNAseq and qPCR) of first feeding prey types (copepods or rotifers/Art...
The current commercial production protocols for Atlantic cod depend on enriched rotifers and Artemia...
Accumulating evidence indicates a close relationship between oxidative stress and growth rate in fis...
With regard to predicted oceanic warming, we studied the effects of heat stress on the redox system ...
Production of high quality juveniles is still a bottleneck in the intensive culture of cod (Gadus mo...
Dynamics between hypertrophy (increase in cell size) and hyperplasia (increase in cell numbers) of w...
Highlights: • Larvae upregulate genes associated with fatty acid and glycogen synthesis under moder...
AbstractWith regard to predicted oceanic warming, we studied the effects of heat stress on the redox...
Fish tissues, particularly rich in n-3 PUFA, are prone to lipid peroxidation that can damage cellula...
Compensatory growth may increase molecular oxidative damage, which may be mitigated through the inta...
Considering the well-known problems arising from the use of rotifers and Artemia as live prey in lar...