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MITRE: inferring features from microbiota time-series data linked to host status.

Elijah BogartRichard CreswellGeorg K Gerber
Published in: Genome biology (2019)
Longitudinal studies are crucial for discovering causal relationships between the microbiome and human disease. We present MITRE, the Microbiome Interpretable Temporal Rule Engine, a supervised machine learning method for microbiome time-series analysis that infers human-interpretable rules linking changes in abundance of clades of microbes over time windows to binary descriptions of host status, such as the presence/absence of disease. We validate MITRE's performance on semi-synthetic data and five real datasets. MITRE performs on par or outperforms conventional difficult-to-interpret machine learning approaches, providing a powerful new tool enabling the discovery of biologically interpretable relationships between microbiome and human host ( https://github.com/gerberlab/mitre/ ).
Keyphrases
  • machine learning
  • endothelial cells
  • induced pluripotent stem cells
  • big data
  • pluripotent stem cells
  • small molecule