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Modeling tissue‐relevant Caenorhabditis elegans metabolism at network, pathway, reaction, and metabolite levels

L. Şafak Yılmaz, Xuhang Li, Shivani Nanda, Bennett W. Fox, Frank C. Schroeder, Albertha J.M. Walhout

2020Molecular Systems Biology50 citationsDOIOpen Access PDF

Abstract

Metabolism is a highly compartmentalized process that provides building blocks for biomass generation during development, homeostasis, and wound healing, and energy to support cellular and organismal processes. In metazoans, different cells and tissues specialize in different aspects of metabolism. However, studying the compartmentalization of metabolism in different cell types in a whole animal and for a particular stage of life is difficult. Here, we present MEtabolic models Reconciled with Gene Expression (MERGE), a computational pipeline that we used to predict tissue-relevant metabolic function at the network, pathway, reaction, and metabolite levels based on single-cell RNA-sequencing (scRNA-seq) data from the nematode Caenorhabditis elegans. Our analysis recapitulated known tissue functions in C. elegans, captured metabolic properties that are shared with similar tissues in human, and provided predictions for novel metabolic functions. MERGE is versatile and applicable to other systems. We envision this work as a starting point for the development of metabolic network models for individual cells as scRNA-seq continues to provide higher-resolution gene expression data.

Topics & Concepts

BiologyCaenorhabditis elegansComputational biologyModel organismMetabolic networkCell metabolismSystems biologyCompartmentalization (fire protection)TranscriptomeOrganismFlux balance analysisMetabolic pathwayCell biologyGeneGene expressionCellGeneticsBiochemistryEnzymeGenetics, Aging, and Longevity in Model OrganismsMicrobial Metabolic Engineering and BioproductionGene Regulatory Network Analysis