Agricultural waste byproduct utilization: Date pit powder 1H NMR metabolite identification for goat (Capra hircus) milk pathway analysis

Food chemistry advances Pub Date : 2025-06-01 DOI:10.1016/j.focha.2025.101024

M.R.Abd Rahman , M.M. Aween , Z. Hassan , M.S. Hassan , R. Hashim , I.S. Ismail , M.S.M. Misenan , R. Ranjithkumar , K.F. Li , L.S. Wong

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Abstract

Agricultural waste byproducts (Date pits), are discarded in tons yearly and possess several nutritional advantages. Researches indicated that goat milk holds equivalent or superior potential than cow milk. Pathway analyses aid in uncovering biological mechanisms embedded within the dataset. This study concentrated on date pit powder (DPP) as a potential supplement for dairy goats to enhance milk quality, emphasizing on the route analyses. ¹H NMR analyses on DPP extracts was executed followed by chemometrics. Dairy goats were categorized into six groups (n = 4 / group): control, 10 g and 20 g for both Ajwa DPP (high quality) and Mariami DPP, and an additional 30 g for Mariami DPP exclusively. DPP supplementation was administered daily throughout a three-month duration. The goat milk was subsequently subjected to ¹H NMR studies, followed by chemometrics (PCA and PLS). Milk metabolites were subsequently analyzed using MetaboAnalyst software, with visualizations shown as heatmaps and pathway analyses. The ¹H NMR data of DPP samples from TCA and PB extracts (non-polar) successfully eliminated most metabolites in comparison to the aqueous ACN and MeOH extracts (polar). Following which, Ajwa and Mariami DPP exhibited nearly identical concentrations of the chemicals α-Glucose and flavanone, resulting in PCA clustering. The heatmap revealed varying milk metabolite concentrations, reflecting the animals' condition at months 1 and 3 due to DPP treatment. Six significant metabolic pathways (p < 0.05), with alanine, aspartate, and glutamate metabolism exhibiting the lowest p-value. DPP, an agricultural waste byproduct, is a viable alternative nutritional supplement at enhancing milk quality, as evaluated by metabolic pathways, in addition to reports of increased milk yield in other studies. This indirectly is in line with the sustainable development goals (SDG) in particular targeting on zero hunger; and good health and well-being.

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农业废弃物副产物利用：枣核粉的1H NMR代谢物鉴定，用于山羊（Capra hircus）乳路分析

农业废弃物副产品（枣核）每年被丢弃成吨，具有多种营养优势。研究表明，羊奶具有与牛奶相当或更好的潜力。途径分析有助于揭示嵌入在数据集中的生物机制。本研究以枣核粉（DPP）作为提高奶山羊奶质的潜在添加物，重点进行了路线分析。对DPP提取物进行1H NMR分析，然后进行化学计量学分析。将奶山羊分为6组（n = 4只/组）：对照组、高品质Ajwa DPP和Mariami DPP均饲喂10 g和20 g，仅饲喂Mariami DPP 30 g。在三个月的时间里，每天补充DPP。羊奶随后进行1H NMR研究，随后进行化学计量学（PCA和PLS）。随后使用MetaboAnalyst软件分析牛奶代谢物，可视化显示为热图和途径分析。与ACN和MeOH水溶液提取物（极性）相比，来自TCA和PB提取物（非极性）的DPP样品的1H NMR数据成功地消除了大多数代谢物。随后，Ajwa和Mariami DPP显示出几乎相同浓度的化学物质α-葡萄糖和黄酮，导致PCA聚类。热图显示了不同的乳代谢物浓度，反映了动物在第1个月和第3个月由于DPP治疗的情况。六种重要的代谢途径(p <；0.05)，丙氨酸、天冬氨酸和谷氨酸代谢的p值最低。DPP是一种农业废弃物副产品，经代谢途径评估，是一种可行的替代营养补充剂，可提高牛奶质量，此外，其他研究也报告了牛奶产量的增加。这间接符合可持续发展目标，特别是针对零饥饿的目标；健康和幸福。

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