Abstract
A 75-day rearing trial was designed to study the response of juvenile Megalobrama amblycephala to dietary methionine (Met) levels. Three practical diets with graded Met levels (0.40%, 0.84% and 1.28% dry matter) were prepared to feed the juvenile fish. The results showed that the 0.84% Met diet significantly improved the growth compared with 0.40% diets. Compared with 0.84% and 1.28% Met, 0.40% Met significantly increased the hepatic lipid content, while decreasing the muscular lipid and glycogen contents. 0.40% Met decreased the protein levels of phospho-Eukaryotic initiation factor 4E binding protein-1 (p-4e-bp1), 4e-bp1 and Ribosomal protein S6 kinase 1 in the liver, compared with 0.84% diet, while an increasing trend was observed in the muscle. Met supplementation tended to decrease and increase lipid synthesis in the liver and muscle, respectively, via changing mRNA levels of sterol regulatory element-binding protein 1, fatty acid synthetase and acetyl-CoA carboxylase. 1.28% dietary Met promoted fatty acid β-oxidation and lipolysis in both the liver and muscle by increasing carnitine palmitoyl transferase 1, peroxisome proliferator activated receptor alpha, lipoprotein lipase and lipase mRNA levels. Compared with 0.40% and 0.84% dietary Met, 1.28% Met enhanced the mRNA levels of hepatic gluconeogenesis related genes phosphoenolpyruvate carboxykinase (pepck), and glucose-6-phosphatase, and muscular glycolysis related genes phosphofructokinase (pfk), and pyruvate kinase (pk). The mRNA levels of hepatic pfk, pk and glucokinase were markedly downregulated by 1.28% Met compared with 0.84% level. Muscular pepck, glycogen synthase, and hepatic glucose transporters 2 mRNA levels were induced by 1.28% Met. Generally, deficient Met level decreased the growth of juvenile Megalobrama amblycephala, and the different nutrient metabolism responses to dietary Met were revealed in the liver and muscle.
Highlights
A 75-day rearing trial was designed to study the response of juvenile Megalobrama amblycephala to dietary methionine (Met) levels
In the present study, the data related to growth performance indicated that Met supplementation (0.84% and 1.28% dietary Met) significantly improved FBW, Weight gain rate (WGR) and Specific growth rate (SGR) of juvenile blunt snout bream compared with the diet without Met supplementation (0.40% Met diet)
The present study investigated the response of target of rapamycin (TOR) pathway related protein synthesis to dietary Met. 0.40% dietary Met level decreased TOR signaling in the liver of blunt snout bream; this was evidenced by reduced protein levels of hepatic S6k1 and p-4e-bp[1], the downstream of TOR that regulate protein synthesis[29], in the 0.40% diet group
Summary
A 75-day rearing trial was designed to study the response of juvenile Megalobrama amblycephala to dietary methionine (Met) levels. Met supplementation tended to decrease and increase lipid synthesis in the liver and muscle, respectively, via changing mRNA levels of sterol regulatory element-binding protein 1, fatty acid synthetase and acetyl-CoA carboxylase. Glycogen synthase, and hepatic glucose transporters 2 mRNA levels were induced by 1.28% Met. Generally, deficient Met level decreased the growth of juvenile Megalobrama amblycephala, and the different nutrient metabolism responses to dietary Met were revealed in the liver and muscle. In cobia (Rachycentron canadum), Met deficiency suppressed hepatic lipogenesis related gene (sterol regulatory element-binding protein (srebp1) and fatty acid synthetase (fas)) mRNA expressions and upregulated fatty acid oxidation-related gene (carnitine palmitoyl transferase 1 (cpt1), peroxisome proliferator activated receptor alpha (pparα), and lipoprotein lipase (lpl)), phosphoenolpyruvate carboxykinase (pepck) relative mRNA expression levels[5,6]. The protein and gene expression levels of the TOR signaling pathway in the liver and muscle
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