Cominetti Ornella, Dayon Loïc
Proteomics, Nestlé Institute of Food Safety & Analytical Sciences, Nestlé Research, Lausanne, Switzerland.
Institut des Sciences et Ingénierie Chimiques, Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland.
Expert Rev Proteomics. 2025 Apr;22(4):149-162. doi: 10.1080/14789450.2025.2491357. Epub 2025 Apr 13.
A holistic view on biological systems is today a reality with the application of multi-omic technologies. These technologies allow the profiling of genome, epigenome, transcriptome, proteome, metabolome as well as newly emerging 'omes.' While the multiple layers of data accumulate, their integration and reconciliation in a single system map is a cumbersome exercise that faces many challenges. Application to human health and disease requires large sample sizes, robust methodologies and high-quality standards.
We review the different methods used to integrate multi-omics, as recent ones including artificial intelligence. With proteomics as an anchor technology, we then present selected applications of its data combination with other omics layers in clinical research, mainly covering literature from the last five years in the Scopus and/or PubMed databases.
Multi-omics is powerful to comprehensively type molecular layers and link them to phenotype. Yet, technologies and data are very diverse and still strategies and methodologies to properly integrate these modalities are needed.
如今,随着多组学技术的应用,对生物系统的整体看法已成为现实。这些技术能够对基因组、表观基因组、转录组、蛋白质组、代谢组以及新出现的各种“组”进行分析。虽然多层数据不断积累,但要将它们整合并协调到一个单一的系统图谱中却是一项繁琐的工作,面临诸多挑战。将其应用于人类健康和疾病研究需要大样本量、可靠的方法和高质量标准。
我们回顾了用于整合多组学的不同方法,包括近期的人工智能方法。以蛋白质组学作为核心技术,我们随后展示了其数据与其他组学层在临床研究中的选定应用,主要涵盖过去五年Scopus和/或PubMed数据库中的文献。
多组学在全面分类分子层并将它们与表型联系起来方面很强大。然而,技术和数据非常多样,仍然需要适当整合这些模式的策略和方法。
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