Multi-omics integration in biomedical research – A metabolomics-centric review
Recent advances in high-throughput technologies have enabled the profiling of multiple layers of a biological system, including DNA sequence data (genomics), RNA expression levels (transcriptomics), and metabolite levels (metabolomics). This has led to the generation of vast amounts of biological da...
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Published in: | Analytica chimica acta Vol. 1141; pp. 144 - 162 |
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Main Authors: | , , , |
Format: | Journal Article |
Language: | English |
Published: |
Netherlands
Elsevier B.V
02-01-2021
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Subjects: | |
Online Access: | Get full text |
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Summary: | Recent advances in high-throughput technologies have enabled the profiling of multiple layers of a biological system, including DNA sequence data (genomics), RNA expression levels (transcriptomics), and metabolite levels (metabolomics). This has led to the generation of vast amounts of biological data that can be integrated in so-called multi-omics studies to examine the complex molecular underpinnings of health and disease. Integrative analysis of such datasets is not straightforward and is particularly complicated by the high dimensionality and heterogeneity of the data and by the lack of universal analysis protocols. Previous reviews have discussed various strategies to address the challenges of data integration, elaborating on specific aspects, such as network inference or feature selection techniques. Thereby, the main focus has been on the integration of two omics layers in their relation to a phenotype of interest. In this review we provide an overview over a typical multi-omics workflow, focusing on integration methods that have the potential to combine metabolomics data with two or more omics. We discuss multiple integration concepts including data-driven, knowledge-based, simultaneous and step-wise approaches. We highlight the application of these methods in recent multi-omics studies, including large-scale integration efforts aiming at a global depiction of the complex relationships within and between different biological layers without focusing on a particular phenotype.
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•Multi-omics studies can unravel the complex molecular underpinnings of diseases.•Data availability and study aims influence the selection of the integration strategy.•Knowledge-based integration can enhance the biological interpretability of results.•Data-driven integration can infer relationships between uncharacterized molecules.•Network-based, hybrid integration strategies combine the strengths of both. |
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Bibliography: | Author contributions M.A.W., J.K., G.K., M.A.: Conceptualization; Writing - original draft; Writing - review & editing. All authors read and approved the final manuscript. |
ISSN: | 0003-2670 1873-4324 |
DOI: | 10.1016/j.aca.2020.10.038 |