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Phenotype-specific estimation of metabolic fluxes using gene expression data

Nicolás González-Arrué, Isidora Inostroza, Raúl Conejeros, Marcelo Rivas‐Astroza

2023iScience10 citationsDOIOpen Access PDF

Abstract

A cell's genome influences its metabolism via the expression of enzyme-related genes, but transcriptome and fluxome are not perfectly correlated as post-transcriptional mechanisms also regulate reaction's kinetics. Here, we addressed the question: given a transcriptome, how unobserved mechanisms of reaction kinetics should be systematically accounted for when inferring the fluxome? To infer the most likely and least biased fluxome, we present Pheflux, a constraint-based model maximizing Shannon's entropy of fluxes per mRNA. Benchmarked against 13 C fluxes of yeast and bacteria, Pheflux accurately estimates the carbon core metabolism. We applied Pheflux to thousands of normal and tumor cell transcriptomes obtained from The Cancer Genome Atlas. Pheflux showed statistically significantly higher glucose yields on lactate in breast, kidney, and bronchus-lung tumoral cells than their normal counterparts. Results are consistent with the Warburg effect, a hallmark of cancer metabolism, suggesting that Pheflux can be efficiently used to study the metabolism of eukaryotic cells.

Topics & Concepts

PhenotypeGene expressionComputational biologyGeneEstimationBiologyBioinformaticsGeneticsEngineeringSystems engineeringMicrobial Metabolic Engineering and BioproductionGene Regulatory Network AnalysisBioinformatics and Genomic Networks
Phenotype-specific estimation of metabolic fluxes using gene expression data | Litcius