Abstract Background Flux Balance Analysis (FBA) is a key metabolic modeling method used to simulate cellular metabolism under steady-state conditions. Its simplicity and versatility have led to various strategies incorporating transcriptomic and proteomic data into FBA, successfully predicting flux distribution and phenotypic results. However, despite these advances, the untapped potential lies in leveraging gene-related connections like co-expression patterns for valuable insights. Results To fill this gap, we introduce ICON-GEMs, an innovative constraint-based model to incorporate gene co-expression network into the FBA model, facilitating more precise determination of flux distributions and functional pathways. In this study, transcripto...
Background Several computational methods have been developed that integrate transcriptomics data wit...
Flux balance analysis (FBA) allows steady-state flux predictions using optimization principles and o...
Motivation: Genome-scale metabolic networks can be modeled in a constraint-based fashion. Reaction s...
With the advent of high-throughput technologies, the field of systems biology has amassed an abundan...
The ever-increasing availability of transcriptomic and metabolomic data can be used to deeply analyz...
The ever-increasing availability of transcriptomic and metabolomic data can be used to deeply analyz...
Flux balance analysis (FBA) of a genome-scale metabolic model allows calculation of intracellular fl...
As large volumes of omics data have become available, systems biology is playing increasingly import...
Prediction of possible flux distributions in a metabolic network provides detailed phenotypic inform...
Prediction of possible flux distributions in a metabolic network provides detailed phenotypic inform...
Genome sequencing dramatically increased our ability to understand cellular response to perturbation...
[[abstract]]MOTIVATION: Genome-scale metabolic network models have become an indispensable part of t...
Prediction of possible flux distributions in a metabolic network provides detailed phenotypic inform...
Genome sequencing dramatically increased our ability to understand cellular response to perturbation...
Background: Expression of cell phenotypes highly depends on metabolism that supplies matter and ener...
Background Several computational methods have been developed that integrate transcriptomics data wit...
Flux balance analysis (FBA) allows steady-state flux predictions using optimization principles and o...
Motivation: Genome-scale metabolic networks can be modeled in a constraint-based fashion. Reaction s...
With the advent of high-throughput technologies, the field of systems biology has amassed an abundan...
The ever-increasing availability of transcriptomic and metabolomic data can be used to deeply analyz...
The ever-increasing availability of transcriptomic and metabolomic data can be used to deeply analyz...
Flux balance analysis (FBA) of a genome-scale metabolic model allows calculation of intracellular fl...
As large volumes of omics data have become available, systems biology is playing increasingly import...
Prediction of possible flux distributions in a metabolic network provides detailed phenotypic inform...
Prediction of possible flux distributions in a metabolic network provides detailed phenotypic inform...
Genome sequencing dramatically increased our ability to understand cellular response to perturbation...
[[abstract]]MOTIVATION: Genome-scale metabolic network models have become an indispensable part of t...
Prediction of possible flux distributions in a metabolic network provides detailed phenotypic inform...
Genome sequencing dramatically increased our ability to understand cellular response to perturbation...
Background: Expression of cell phenotypes highly depends on metabolism that supplies matter and ener...
Background Several computational methods have been developed that integrate transcriptomics data wit...
Flux balance analysis (FBA) allows steady-state flux predictions using optimization principles and o...
Motivation: Genome-scale metabolic networks can be modeled in a constraint-based fashion. Reaction s...