结合遗传标记、农场信息和红外数据,在线预测荷斯坦牛代谢紊乱的血液生物标志物。

IF 6.3 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE Journal of Animal Science and Biotechnology Pub Date : 2024-06-09 DOI:10.1186/s40104-024-01042-3
Lucio F M Mota, Diana Giannuzzi, Sara Pegolo, Hugo Toledo-Alvarado, Stefano Schiavon, Luigi Gallo, Erminio Trevisi, Alon Arazi, Gil Katz, Guilherme J M Rosa, Alessio Cecchinato
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引用次数: 0

摘要

背景:众所周知,各种血液代谢物是衡量奶牛健康状况的有用指标,但其常规评估耗时长、成本高,而且对牛群造成压力。因此,我们评估了将在线近红外(NIR)牛奶光谱与牧场(产奶天数 [DIM] 和胎次)和遗传标记结合起来预测荷斯坦牛血液代谢物的有效性。数据来自一个拥有 AfiLab 系统的牧场的 388 头荷斯坦奶牛。将近红外光谱、农场信息和单核苷酸多态性(SNP)标记融合在一起,使用弹性网(ENet)方法建立血液代谢物的校准方程,并考虑了 3 个模型:(1) 模型 1 (M1),仅包括近红外信息;(2) 模型 2 (M2),包括近红外和农场信息;(3) 模型 3 (M3),结合近红外、农场和基因组信息。通过从全基因组关联研究(GWAS)结果中预选 SNP 标记,对 M3 进行了降维处理:结果表明,与 M1 相比,M2 对能量相关代谢物(葡萄糖、胆固醇、NEFA、BHB、尿素和肌酐)的预测能力平均提高了 19%,对肝功能/肝损伤的预测能力提高了 20%,对炎症/innate 免疫的预测能力提高了 7%,对氧化应激代谢物的预测能力提高了 24%,对矿物质的预测能力提高了 23%。同时,与 M1 相比,M3 对能量相关代谢物的预测能力进一步提高了 34%,对肝功能/肝损伤的预测能力提高了 32%,对炎症/免疫力的预测能力提高了 22%,对氧化应激代谢物的预测能力提高了 42.1%,对矿物质的预测能力提高了 41%。我们发现,使用 GWAS 结果中选定的 SNP 标记(阈值大于 2.0),M3 的预测能力有所提高,能量相关代谢物提高了 5%,肝功能/肝损伤提高了 9%,炎症/卵巢免疫提高了 8%,氧化应激代谢物提高了 22%,矿物质提高了 9%。磷(2%)、铁还原抗氧化能力(1%)和葡萄糖(3%)的含量略有下降。此外,研究还发现,使用限制性更强的阈值(-log10(P 值) > 2.5 和 3.0)会影响预测准确性,预测能力的提高幅度较低:我们的研究结果表明,将多种信息源(如遗传标记、农场信息和在线近红外红外数据)结合起来可提高奶牛血液代谢物的预测能力,是商业牛群大规模在线健康监测的有效策略。
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Combining genetic markers, on-farm information and infrared data for the in-line prediction of blood biomarkers of metabolic disorders in Holstein cattle.

Background: Various blood metabolites are known to be useful indicators of health status in dairy cattle, but their routine assessment is time-consuming, expensive, and stressful for the cows at the herd level. Thus, we evaluated the effectiveness of combining in-line near infrared (NIR) milk spectra with on-farm (days in milk [DIM] and parity) and genetic markers for predicting blood metabolites in Holstein cattle. Data were obtained from 388 Holstein cows from a farm with an AfiLab system. NIR spectra, on-farm information, and single nucleotide polymorphisms (SNP) markers were blended to develop calibration equations for blood metabolites using the elastic net (ENet) approach, considering 3 models: (1) Model 1 (M1) including only NIR information, (2) Model 2 (M2) with both NIR and on-farm information, and (3) Model 3 (M3) combining NIR, on-farm and genomic information. Dimension reduction was considered for M3 by preselecting SNP markers from genome-wide association study (GWAS) results.

Results: Results indicate that M2 improved the predictive ability by an average of 19% for energy-related metabolites (glucose, cholesterol, NEFA, BHB, urea, and creatinine), 20% for liver function/hepatic damage, 7% for inflammation/innate immunity, 24% for oxidative stress metabolites, and 23% for minerals compared to M1. Meanwhile, M3 further enhanced the predictive ability by 34% for energy-related metabolites, 32% for liver function/hepatic damage, 22% for inflammation/innate immunity, 42.1% for oxidative stress metabolites, and 41% for minerals, compared to M1. We found improved predictive ability of M3 using selected SNP markers from GWAS results using a threshold of > 2.0 by 5% for energy-related metabolites, 9% for liver function/hepatic damage, 8% for inflammation/innate immunity, 22% for oxidative stress metabolites, and 9% for minerals. Slight reductions were observed for phosphorus (2%), ferric-reducing antioxidant power (1%), and glucose (3%). Furthermore, it was found that prediction accuracies are influenced by using more restrictive thresholds (-log10(P-value) > 2.5 and 3.0), with a lower increase in the predictive ability.

Conclusion: Our results highlighted the potential of combining several sources of information, such as genetic markers, on-farm information, and in-line NIR infrared data improves the predictive ability of blood metabolites in dairy cattle, representing an effective strategy for large-scale in-line health monitoring in commercial herds.

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