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An Integrated Workflow of Identification and Quantification on FDR Control-Based Untargeted Metabolome
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High-throughput discovery metabolomics.

Tobias Fuhrer1, Nicola Zamboni1

  • 1ETH Zurich, Institute of Molecular Systems Biology, Auguste-Piccard-Hof 1, 8093 Zurich, Switzerland.

Current Opinion in Biotechnology
|September 9, 2014
PubMed
Summary
This summary is machine-generated.

High-throughput, non-targeted metabolomics using mass spectrometry offers broad, direct insights into cellular responses. This powerful technique is increasingly efficient for large-scale biological discovery and research.

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Area of Science:

  • Biochemistry
  • Analytical Chemistry
  • Systems Biology

Background:

  • Non-targeted metabolomics, a mass spectrometry-based approach, is crucial for studying metabolic phenotypes in diverse research areas.
  • It offers a comprehensive view of cellular responses, requiring minimal sample preparation compared to other omics techniques.
  • Its suitability for large-scale screening and discovery makes it invaluable for biological research.

Purpose of the Study:

  • To review the current achievements and future potential of high-throughput, non-targeted metabolomics.
  • To highlight the capabilities of mass spectrometry in analyzing complex biological samples.
  • To discuss advancements driving increased throughput in metabolomic analyses.

Main Methods:

  • Mass spectrometry-based non-targeted metabolomics.
  • Review of existing literature and technological advancements.
  • Analysis of throughput capabilities in current metabolomic platforms.

Main Results:

  • Routine, precise analysis of thousands of small molecular features in thousands of samples daily is achievable.
  • Current high-throughput metabolomics platforms demonstrate significant analytical capacity.
  • Ongoing developments are poised to further enhance throughput.

Conclusions:

  • High-throughput, non-targeted metabolomics is a reality, enabling large-scale biological discovery.
  • Technological advancements, particularly in microfluidics and integrated interfaces, promise even greater efficiency.
  • Metabolomics continues to be a vital tool for understanding integrated cellular responses.