{"title":"在发芽大麦研究中利用多组学和机器学习方法:从农场种植到最终产品","authors":"Bahman Panahi , Nahid Hosseinzadeh Gharajeh , Hossein Mohammadzadeh Jalaly , Saber Golkari","doi":"10.1016/j.cpb.2024.100362","DOIUrl":null,"url":null,"abstract":"<div><p>This study focuses on the potential of multi-omics and machine learning approaches in improving our understanding of the malting processes and cultivation systems in barley. The omics approach has been used to explore biomarkers associated with desired sensory characteristics in malting barley, enabling potential applications in specific treatments to modify diastatic power, enzyme activity, color, and aroma compounds. Moreover, the integration of machine learning and multi-omics in malting barley researches has significantly enhanced our knowledge in physiology, cultivation, and processing for more efficient and sustainable production systems in malting barley industry. The integration of cutting-edge machine vision and high-throughput phenotyping technologies has additionally the potential to revolutionize the assessment of physical and biochemical traits in malting barley. In addition, the harnessing of integrative approach to predict consumer acceptability, and assess physicochemical and colorimetric properties of malt extracts has been discussed. Current survey showed that the ML-driven predictive maintenance is revolutionizing the barley malting industry by not only enhancing equipment performance but also minimizing operational costs and reducing unplanned downtime. 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引用次数: 0
摘要
本研究的重点是多组学和机器学习方法在提高我们对大麦发芽过程和栽培系统的认识方面的潜力。我们利用组学方法探索了与大麦发芽所需的感官特性相关的生物标志物,使其在特定处理中的潜在应用成为可能,从而改变发芽率、酶活性、色泽和香味化合物。此外,机器学习和多组学在发芽大麦研究中的整合极大地丰富了我们在生理、栽培和加工方面的知识,从而为发芽大麦行业提供了更高效、更可持续的生产系统。此外,尖端机器视觉和高通量表型技术的整合还有可能彻底改变对发芽大麦物理和生化性状的评估。此外,还讨论了如何利用综合方法来预测消费者的接受度,以及评估麦芽提取物的理化和色度特性。目前的调查显示,以 ML 为驱动的预测性维护正在彻底改变大麦发芽行业,不仅能提高设备性能,还能最大限度地降低运营成本,减少计划外停机时间。这些知识不仅有望带来进步,还为大麦发芽行业的未来研究开辟了道路。
Leveraging multi-omics and machine learning approaches in malting barley research: From farm cultivation to the final products
This study focuses on the potential of multi-omics and machine learning approaches in improving our understanding of the malting processes and cultivation systems in barley. The omics approach has been used to explore biomarkers associated with desired sensory characteristics in malting barley, enabling potential applications in specific treatments to modify diastatic power, enzyme activity, color, and aroma compounds. Moreover, the integration of machine learning and multi-omics in malting barley researches has significantly enhanced our knowledge in physiology, cultivation, and processing for more efficient and sustainable production systems in malting barley industry. The integration of cutting-edge machine vision and high-throughput phenotyping technologies has additionally the potential to revolutionize the assessment of physical and biochemical traits in malting barley. In addition, the harnessing of integrative approach to predict consumer acceptability, and assess physicochemical and colorimetric properties of malt extracts has been discussed. Current survey showed that the ML-driven predictive maintenance is revolutionizing the barley malting industry by not only enhancing equipment performance but also minimizing operational costs and reducing unplanned downtime. This knowledge not only promises advancements but also opens avenues for future researches in malting barley industry.
期刊介绍:
Current Plant Biology aims to acknowledge and encourage interdisciplinary research in fundamental plant sciences with scope to address crop improvement, biodiversity, nutrition and human health. It publishes review articles, original research papers, method papers and short articles in plant research fields, such as systems biology, cell biology, genetics, epigenetics, mathematical modeling, signal transduction, plant-microbe interactions, synthetic biology, developmental biology, biochemistry, molecular biology, physiology, biotechnologies, bioinformatics and plant genomic resources.