TY - JOUR T1 - Effects of Fermented <em>Idesia Polycarpa</em> Residues supplementation on laying performance of Laying Quails JF - bioRxiv DO - 10.1101/471201 SP - 471201 AU - Xinanbei Liu AU - Na Li AU - Yueyue Shu AU - Yiran Sun AU - Yu Li AU - Wang Hua AU - Yang Ye AU - Fang Chen AU - Lin Tang Y1 - 2021/01/01 UR - http://biorxiv.org/content/early/2021/09/30/471201.abstract N2 - Although Idesia polycarpa oil has been wildly explored as a raw material for biodiesel, the reports studying the by-product Idesia polycarpa fruit residues (IPR) are few. This study aimed to evaluate the effect of the Idesia polycarpa fruit residues fermented feed additive (IPFF) on the egg production of laying quails. The egg production and related performances include egg quality, yolk cholesterol, yolk fatty acid, quails’ jejunum morphology, and relative gene expression were determined in this study. Compared to the standard diet group, birds fed the 1% IPFF showed a higher egg production (87.7% on average, 11.5% above the control; P&lt;0.01). The yolk fatty acid composition and n6/n3 ratio were affected by IPFF or IPR. Compared to the standard diet group, the egg cholesterol content was lower in both IPFF and IPR groups, and the yolk n6/n3 ratio in the 5% IPFF group (10.3; P&lt;0.01) was more reasonable. Meanwhile, birds under IPFF dietary supplement showed a thicker jejunum wall, higher villus, and deeper crypt than the standard diet group. In addition, the altered mRNA expression of four genes involved in cholesterol and fatty acids metabolism (SREBP-1, SREBP-2, ADGL, APOVLDL-II) in the 1% IPFF group and 5% IPR group indicated that the lipids metabolism and transportation were enhanced in the interclavicular fat pad and liver, relative to the standard diet group.HIGHLIGHTS Egg production was higher in IPFF groupsEgg cholesterol was lower in IPFF groupsLipid metabolism and transportation was enhanced in IPFF groupsIntestine wall was thicker in IPFF groupsCompeting Interest StatementThe authors have declared no competing interest.IPRIdesia polycarpa residueIPFFIdesia polycarpa residue fermented feedPUFAPolyunsaturated fatty acid ER -