Aquaculture Reports (Oct 2024)

Valine biased glycogen consumption to promote energy metabolism of Portunus trituberculatus and increased protein and essential amino acid deposition in muscle

  • Shichao Xie,
  • Tingting Zhu,
  • Wenli Zhao,
  • Yuedong Shen,
  • Yuhang Yang,
  • Xiangkai Li,
  • Jiayang Xu,
  • Yinzhao Zhang,
  • Feng Tang,
  • Peng Sun,
  • Qicun Zhou,
  • Min Jin

Journal volume & issue
Vol. 38
p. 102322

Abstract

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The present research assessed the impact of dietary valine on nutritional and energy metabolism, as well as muscle development in swimming crabs (Portunus trituberculatus) over a period of six weeks. Swimming crabs, initially weighing around 23.34 ± 0.03 g, were given six diets identical in nitrogen and lipid levels (45 % and 8 % respectively). These diets contained valine contents of 0.99 %, 1.24 %, 1.56 %, 1.69 %, 1.90 %, and 2.20 % respectively. One hundred and eighty crabs were randomized into six treatments, each treatment including three replicates. The results suggested that significant increases were discovered in FW, PWG, as well as SGR of crabs when dietary valine increasing from 0.99 % to 1.69 %, but these measurements decreased when dietary valine increased to 2.20 %. Compare to the control treatment, crabs that were given diets with 1.90 % and 2.20 % valine showed increased level of muscle protein. Crabs that were given the diets containing 1.56 % and 1.69 % valine showed significantly increased concentration of GLU in hemolymph compared to the control group. Additionally, crabs that were given the diets containing 1.69 % valine and 1.90 % valine respectively showed significantly increased concentrations of T-CHO and TG in hepatopancreas. Hepatic glycogen concentration significantly decreased as the level of valine in diets increased from 0.99 % to 1.56 %, but significantly increased as valine level further increased to 2.20 %. Compared with the control group, crabs that were given diets with 1.90 % valine showed increased expression levels of genes associated to amino acid metabolism (pi3k, akt, alt, ast, 4ebp1 and eif4e3) and energy metabolism (pk, cs1, idh, nd1, cytb and cox2). Crabs given diets containing 2.20 % valine showed significantly increased expression level of pepck in hepatopancreas, while crabs given diets containing 1.24 %, 1.56 %, and 1.69 % valine exhibited significantly increased expression level of cpt1 in hepatopancreas. Crabs given the diet with 1.69 % valine had the highest expression levels of tor and pax7 in muscle. Increased dietary valine significantly reduced myofiber density but promoted higher frequency of myofibers in larger diameters. In conclusion, the optimal valine requirement for P. trituberculatus was 1.56 % of diet based on PWG by a quadratic modeling. 1.69–1.90 % valine promoted amino acid metabolism and muscle growth, moreover, enhanced energy metabolism by driving the consumption of glycogen rather than lipids.

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