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Nutritional status modulates plasma leptin, AMPK and TOR activation, and mitochondrial biogenesis: Implications for cell metabolism and growth in skeletal muscle of the fine flounder

Graphical abstract Highlights ► Study showing novel data on fish skeletal muscle growth and metabolism. ► Positive relationship between plasma leptin and AMPK during fasting and refeeding. ► Positive relationship between AMPK and PGC-1a/OXPHOS complexes. ► Negative relationship between AMPK and TOR...

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Published in:General and comparative endocrinology 2013-06, Vol.186, p.172-180
Main Authors: Fuentes, Eduardo N, Safian, Diego, Einarsdottir, Ingibjörg Eir, Valdés, Juan Antonio, Elorza, Alvaro A, Molina, Alfredo, Björnsson, Björn Thrandur
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container_title General and comparative endocrinology
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creator Fuentes, Eduardo N
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description Graphical abstract Highlights ► Study showing novel data on fish skeletal muscle growth and metabolism. ► Positive relationship between plasma leptin and AMPK during fasting and refeeding. ► Positive relationship between AMPK and PGC-1a/OXPHOS complexes. ► Negative relationship between AMPK and TOR during fasting and refeeding. ► Summarized and integrated information of molecules involve in fish muscle growth.
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subjects acetyl-coa carboxylase
adenosine triphosphate
AMP-activated protein kinase
AMP-Activated Protein Kinases - blood
Animals
biogenesis
carassius-auratus
Cell metabolism
Ecology
Ekologi
Endocrinology & Metabolism
energy
fasting
fatty-acid oxidation
Fish
flounder
Flounder - blood
Flounder - metabolism
food intake
gene-expression
Growth
leptin
Leptin - blood
mammalian target
Mitochondrial Turnover - physiology
Muscle, Skeletal - metabolism
muscles
Nutritional status
Nutritional Status - physiology
oxidative phosphorylation
Paralichthys adspersus
pathways
Pleuronectiformes
PPAR gamma
protein-kinase
rainbow-trout
refeeding
Signal Transduction
signaling
Signaling pathways
Skeletal muscle
somatotropin
trout oncorhynchus-mykiss
Zoologi
Zoology
title Nutritional status modulates plasma leptin, AMPK and TOR activation, and mitochondrial biogenesis: Implications for cell metabolism and growth in skeletal muscle of the fine flounder
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