Centro de Biotecnología Animal, Servicio Regional de Investigación y Desarrollo Agroalimentario (SERIDA), Camino de Rioseco 1225, 33300 Gijón, Spain.
Experimental Facilities, ALLICE, Le Perroi, 37380 Nouzilly, France.
J Agric Food Chem. 2020 Aug 12;68(32):8732-8743. doi: 10.1021/acs.jafc.0c02129. Epub 2020 Jul 31.
Cattle breeds may differ substantially in their metabolism. However, the metabolomes of dairy and beef cattle are not well-known. Knowledge of breed-specific metabolic features is essential for biomarker identification and to adopt specific nutritional strategies. The muscle hypertrophy (mh), a beef cattle phenotype present in Asturiana de los Valles (AV) but absent in Asturiana de la Montaña (AM) and Holsteins, may underlie such differences. We compared the plasma metabolomes of Holstein, AV, AM, and crossbred cattle recipients selected for meta-analysis within an embryo transfer (ET) program. Blood samples were collected on day 0 (oestrus) and day 7 (prior to ET) ( = 234 samples × 2 days). Nuclear magnetic resonance quantified = 36 metabolites in plasma, and more metabolic differences between breeds were found on day 0 ( = 19 regulated metabolites) than on day 7 ( = 5). AV and AM largely differed from Holstein cattle ( = 55 and 35 enriched metabolic pathways, respectively); however, AV and AM differed in = 6 enriched pathways. Metabolic activity was higher in AV than in Holstein cattle, as explained in part by the mh phenotype. The metabolomic characterization of breeds facilitates biomarker research and helps to define the healthy ranges of metabolite concentrations.
牛种之间的新陈代谢可能有很大差异。然而,奶牛和肉牛的代谢组学尚未得到充分了解。了解特定于品种的代谢特征对于生物标志物的鉴定和采用特定的营养策略至关重要。肌肉肥大(mh)是 Asturiana de los Valles(AV)牛种的一个表型,存在于 Asturiana de la Montaña(AM)和荷斯坦牛中,但不存在于 AM 和荷斯坦牛中,这种差异可能是由 mh 引起的。我们比较了选择进行胚胎移植(ET)计划内荟萃分析的荷斯坦牛、AV、AM 和杂交牛受体的血浆代谢组。在发情期(oestrus)第 0 天(Day 0)和 ET 前第 7 天(Day 7)(= 234 个样本×2 天)采集血液样本。核磁共振定量了血浆中 = 36 种代谢物,在第 0 天(= 19 种调节代谢物)发现的品种间代谢差异大于第 7 天(= 5)。AV 和 AM 与荷斯坦牛差异很大(= 55 和 35 个富集代谢途径,分别);然而,AV 和 AM 之间有 6 个富集途径不同。AV 的代谢活性高于荷斯坦牛,部分原因是 mh 表型。对品种进行代谢组学特征分析有助于生物标志物的研究,并有助于确定代谢物浓度的健康范围。
