Saleh Ahmed A, Nahla Amin, Amber Khairy, Badawi Nemeet, Aboelenin Salama M, Alzawqari Mohammed H, Albogami Sarah, Abdel-Moneim Abdel-Moneim Eid, Soliman Mohamed M, Shukry Mustafa
Department of Poultry Production, Faculty of Agriculture, Kafrelsheikh University, 333516 Kafrelsheikh, Egypt.
Biology Department, Turabah University College, Taif University, P.O. Box 11099, Taif 21944, Saudi Arabia.
Saudi J Biol Sci. 2022 Jun;29(6):103291. doi: 10.1016/j.sjbs.2022.103291. Epub 2022 Apr 21.
The present study aimed to evaluate the impact of feeding peanut meal and linseed meal (LSM) with or without enzyme mixture on growth, plasma metabolites, muscle amino acid (AA) profile, nutrient digestibility, and expression of nutrient absorption-related genes in broilers. A total of 560 one-day-old Cobb-500 male broiler chicks were distributed into eight experimental treatments (7 replications of 10 chicks each) as follows: This study was designed by using 560 one-day-old Cobb-500 male broiler chicks were distributed into eight experimental groups (7 replications of 10 chicks each) to evaluate the differences in body weight, body weight gain, feed intake, feed conversion rate, carcass parts, blood biochemical and mRNA expression genes. Group 1 (C) control fed the basal diet without supplements, Group 2 (C + E) is control group fed on 350 g/ton enzyme mixture, Group 3 (C + PNM100) is control group fed 100 kg/ton peanut meal, Group 4 (C + E + PNM100) is a control group fed on 350 g/ton enzyme mixture and 100 kg/ton peanut meal, Group 5 (C + LSM100) is a control group fed on 100 kg/ton linseed meal, Group 6 (C + E + LSM100) is a control group fed on 350 g/ton enzyme mixture and 100 kg/ton linseed meal, Group 7 (C + PNM50 + LSM50) is control group fed on 50 kg/ton peanut meal and 50 kg/ton linseed meal. Group 8 (C + E + PNM50 + LSM50) is the control group fed on 50 kg/ton peanut meal and 50 kg/ton linseed meal. Each gram of the enzyme mixture contains 11,000 U Xylanase, 6000 U Cellulase, 700 U β-Mannanase, 1500 U Phytase, 5 mg α-Amylase, and 2 mg Protease. No differences in Bodyweight, Bodyweight gain, Feed intake, and carcass parts were noticed among experimental groups, while abdominal fat (%) and FCR were reduced (P < 0.05) in PNM50 + LSM50 + E and LSM100 groups. Plasma metabolites were not altered except total cholesterol, triglyceride, and LDL, reduced (P < 0.01) in treated birds. Dietary inclusion of 100 kg PNM or LSM reduced (P < 0.05) methionine concentration in muscle, while all remaining AA and ammonia concentrations were unaffected. Hepatic MDA contents were reduced (P < 0.001) in treated groups. Nutrient digestibility was not altered among groups except for protein digestibility, which was elevated (P < 0.05) in PNM50 + LSM50 + E, E, and PNM100 + E groups. The highest mRNA expressions of PepT1, APN, SGLT1, HMGCR, GHr, and IGF-1 genes were noticed in PNM50 + LSM50 + E. Conclusively, PNM and LSM can efficiently substitute corn and soybean meal in broiler diets, particularly when fortified with exogenous enzymes, without negative impacts on broiler performance.
本研究旨在评估添加或不添加酶混合物的花生粕和亚麻籽粕(LSM)对肉鸡生长、血浆代谢物、肌肉氨基酸(AA)谱、养分消化率以及养分吸收相关基因表达的影响。总共560只1日龄的科宝500雄性肉鸡被分为8个实验处理组(每组10只鸡,共7个重复),具体如下:本研究通过将560只1日龄的科宝500雄性肉鸡分为8个实验组(每组10只鸡,共7个重复)来评估体重、体重增加、采食量、饲料转化率、胴体部分、血液生化指标和mRNA表达基因的差异。第1组(C)为对照组,饲喂不添加任何补充剂的基础日粮;第2组(C + E)为对照组,饲喂350克/吨的酶混合物;第3组(C + PNM100)为对照组,饲喂100千克/吨的花生粕;第4组(C + E + PNM100)为对照组,饲喂350克/吨的酶混合物和100千克/吨的花生粕;第5组(C + LSM100)为对照组,饲喂100千克/吨的亚麻籽粕;第6组(C + E + LSM100)为对照组,饲喂350克/吨的酶混合物和100千克/吨的亚麻籽粕;第7组(C + PNM50 + LSM50)为对照组,饲喂50千克/吨的花生粕和50千克/吨的亚麻籽粕。第8组(C + E + PNM50 + LSM50)为对照组,饲喂50千克/吨的花生粕和50千克/吨的亚麻籽粕。每克酶混合物含有11,000 U木聚糖酶、6000 U纤维素酶、700 Uβ-甘露聚糖酶、1500 U植酸酶、5毫克α-淀粉酶和2毫克蛋白酶。各实验组之间在体重、体重增加、采食量和胴体部分方面未发现差异,而PNM50 + LSM50 + E组和LSM100组的腹脂率(%)和饲料转化率降低(P < 0.05)。除了总胆固醇、甘油三酯和低密度脂蛋白在处理组中降低(P < 0.01)外血浆代谢物没有改变。日粮中添加100千克花生粕或亚麻籽粕会降低(P < 0.05)肌肉中的蛋氨酸浓度,而所有其他氨基酸和氨的浓度不受影响。处理组的肝脏丙二醛含量降低(P < 0.001)。除了蛋白质消化率在PNM50 + LSM50 + E组、E组和PNM100 + E组中升高(P < 0.05)外,各实验组之间的养分消化率没有改变。在PNM50 + LSM50 + E组中观察到PepT1、APN、SGLT1、HMGCR、GHr和IGF-1基因的最高mRNA表达。总之,花生粕和亚麻籽粕可以有效地替代肉鸡日粮中的玉米和豆粕,特别是在添加外源酶的情况下,对肉鸡性能没有负面影响。
