Italian Journal of Animal Science (Jan 2019)

Effect of feeding less shell, extruded and enzymatically treated palm kernel cake on expression of growth-related genes in broiler chickens

  • Suriya Kumari Ramiah,
  • Norhani Abdullah,
  • Muhammad Akhmal,
  • Saminathan Mookiah,
  • Abdoreza Soleimani Farjam,
  • Chen Wei Li,
  • Liang Juan Boo,
  • Zulkifli Idrus

DOI
https://doi.org/10.1080/1828051X.2019.1589393
Journal volume & issue
Vol. 18, no. 1
pp. 997 – 1004

Abstract

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Palm kernel cake (PKC) is a residue of palm kernel after oil extraction and can be used as a by-product feedstuff for livestock. In the current study, various post-treated PKC fed to broiler chickens and their growth performance and expression of genes related to growth trait studied. A total of 2500-day-old broiler chicks were randomly assigned to following five isocaloric and isonitrogenous diets: 0% PKC (control: corn-soybean meal), 25% PKC in the forms of either untreated or less-shell or extrudedor enzymatically-treated. Each treatment group consisted of five replicates with 100 chicks each. Growth performance and expression of 27 selected genes related to growth and metabolism pathways were investigated. Chickens were fed with treated PKC diets had lower (p < .05) body weight gain, inferior feed conversion ratio (FCR) and higher feed intake. The expression of genes involved in mTOR (GRB2, GRB10), FoxO (FOXO3) and insulin (PRKCZ) signalling pathways, glycolysis/gluconeogenesis (ENO1), fructose and mannose metabolism and apoptosis (RHOBTB2, LOC101750363) were significantly up-regulated in broilers fed with less-shell PKC. It can be concluded that the shell reduction, enzymatic and extrusion treatment practiced in this study did not change PKC feeding potentials in broiler chickens.Highlights Significant up-regulation of eight genes which involved in energy metabolism and growth related functions were observed in broilers fed with less-shell palm kernel cake (PCK). The DEGs (differentially expressed genes), which were upregulated in less shell palm kernel cake fed broilers constituted the pathways related to energy and metabolism such as mTOR, glycolysis, fructose and mannose metabolism, FOXO, apoptosis, and insulin signaling pathway. Higher bulk density and lower water holding capacity of palm kernel cake may lead to higher feed consumption in palm kernel cake incorporated diets.

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