Dietary energy and protein gradients drive metabolic adaptation in growing-finishing yaks on the Qinghai-Tibet plateau.

IF 6.1 1区农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Animal Nutrition Pub Date : 2025-04-05 eCollection Date: 2025-06-01 DOI:10.1016/j.aninu.2025.01.009

Shoupei Zhao, Jia Zhou, Shengtao Guan, Xiaolin Wang, Xiao Wen, Kaiqiang Zhao, Huaming Yang, Lianghao Lu, Bao Zhang, Yuanyuan Chen, Quanhui Peng, Lizhi Wang, Zhisheng Wang, Bai Xue

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Abstract

The study investigated the metabolic responses of yaks to dietary net energy for gain (NEg) and metabolizable protein (MP), and explored potential biomarkers for average daily gain (ADG) in serum metabolites. A total of 40 three-year-old yaks (initial body weight = 255 ± 8.04 kg) were assigned to a 2 × 2 factorial treatment arrangement based on dietary NEg (4.18 vs 4.81 MJ/kg DM; low NEg [LE] vs high NEg [HE]) and MP (72.0 vs 82.8 g/kg DM; low MP [LP] vs high MP [HP]), comprising 4 treatments with 10 replicates each (1 yak per replicate). The yaks were fed these diets for 55 days including a 15-day adaptation period. Yaks on HP diets had greater ADG (P = 0.013) and a reduced feed-to-gain ratio (P = 0.019) compared to those on the LP diet, and those on the LE diet had greater dry matter intake (P < 0.001) but unaffected ADG compared to those on the HE diet (P > 0.05). Dietary NEg interacted with MP in relation to the apparent digestibility of dry matter (P = 0.028) and crude protein (P < 0.001). The apparent digestibility of gross energy (GE), organic matter, and neutral detergent fiber in yaks on the HE diet was greater than those in yaks on the LE diet (P < 0.05). The digestibility of GE in yaks on the HP diet was lower than those on the LP diet (P = 0.011). An significant interaction between dietary NEg level and MP level was observed on serum total bilirubin concentration, catalase concentration, and superoxide dismutase concentration (P < 0.05). Yaks fed HE diets exhibited higher serum glutathione peroxidase protein concentration (P < 0.001), but lower serum triglyceride concentration (P = 0.012) compared to those fed LE diets. Serum level of alanine transaminase was higher in yaks on the HP diet compared to those on the LP diet (P = 0.038). Untargeted metabolomics identified novel biomarkers linked to dietary NEg and MP levels, revealing that the HE diet enhanced adenosine triphosphate production through acetyl-CoA synthesis and affected amino acid, fat, and carbohydrate pathways (P < 0.05). The HP diet altered the synthesis of aromatic amino acids and vitamins (P < 0.05). Additionally, random forest analysis identified N-(9-oxodecyl) acetamide and biliverdin, as biomarkers for predicting ADG. These findings provide a theoretical foundation for the effective feeding and nutritional management of yaks.

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青藏高原生长肥育牦牛饲粮能量和蛋白质梯度对代谢适应的影响

本研究旨在研究牦牛对饲粮净增重能（NEg）和代谢蛋白（MP）的代谢反应，并探索血清代谢产物中平均日增重（ADG）的潜在生物标志物。选取初始体重为255±8.04 kg的40头3岁牦牛，按日粮NEg (4.18 vs 4.81 MJ/kg DM；低NEg [LE] vs高NEg [HE])和MP (72.0 vs 82.8 g/kg DM；低MP [LP] vs高MP [HP])，包括4个处理，每个处理10个重复（每个重复1头牦牛）。饲喂55 d，其中适应期15 d。与低脂饲粮相比，高脂饲粮牦牛的平均日增重显著增加（P = 0.013），料重比显著降低（P = 0.019）；低脂饲粮牦牛的干物质采食量显著增加（P < 0.001），但对平均日增重无影响（P < 0.05）。饲粮NEg与MP对干物质表观消化率（P = 0.028）和粗蛋白质表观消化率（P < 0.001）有交互作用。高代谢能饲粮对总能、有机物和中性洗涤纤维的表观消化率显著高于低代谢能饲粮（P < 0.05）。HP饲粮牦牛对GE的消化率低于LP饲粮（P = 0.011）。饲粮NEg水平和MP水平对血清总胆红素浓度、过氧化氢酶浓度和超氧化物歧化酶浓度有显著交互作用（P < 0.05）。与低负荷饲粮相比，高负荷饲粮牦牛血清谷胱甘肽过氧化物酶蛋白浓度较高（P < 0.001），血清甘油三酯浓度较低（P = 0.012）。HP饲粮牦牛血清丙氨酸转氨酶水平高于LP饲粮（P = 0.038）。非靶向代谢组学鉴定出与膳食NEg和MP水平相关的新生物标志物，表明HE饮食通过乙酰辅酶a合成增强了三磷酸腺苷的产生，并影响了氨基酸、脂肪和碳水化合物途径（P < 0.05）。HP日粮改变了芳香氨基酸和维生素的合成（P < 0.05）。此外，随机森林分析发现N-（9-氧癸基）乙酰胺和胆绿素是预测ADG的生物标志物。研究结果为牦牛的有效饲养和营养管理提供了理论依据。

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来源期刊

Animal Nutrition Agricultural and Biological Sciences-Animal Science and Zoology

CiteScore

7.40

自引率

3.20%

发文量

172

审稿时长

12 weeks

期刊介绍： Animal Nutrition encompasses the full gamut of animal nutritional sciences and reviews including, but not limited to, fundamental aspects of animal nutrition such as nutritional requirements, metabolic studies, body composition, energetics, immunology, neuroscience, microbiology, genetics and molecular and cell biology related to nutrition, and more applied aspects of animal nutrition, such as raw material evaluation, feed additives, nutritive value of novel ingredients and feed safety.