BMC Bioinformatics (Sep 2024)

BayesianSSA: a Bayesian statistical model based on structural sensitivity analysis for predicting responses to enzyme perturbations in metabolic networks

  • Shion Hosoda,
  • Hisashi Iwata,
  • Takuya Miura,
  • Maiko Tanabe,
  • Takashi Okada,
  • Atsushi Mochizuki,
  • Miwa Sato

DOI
https://doi.org/10.1186/s12859-024-05921-4
Journal volume & issue
Vol. 25, no. 1
pp. 1 – 21

Abstract

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Abstract Background Chemical bioproduction has attracted attention as a key technology in a decarbonized society. In computational design for chemical bioproduction, it is necessary to predict changes in metabolic fluxes when up-/down-regulating enzymatic reactions, that is, responses of the system to enzyme perturbations. Structural sensitivity analysis (SSA) was previously developed as a method to predict qualitative responses to enzyme perturbations on the basis of the structural information of the reaction network. However, the network structural information can sometimes be insufficient to predict qualitative responses unambiguously, which is a practical issue in bioproduction applications. To address this, in this study, we propose BayesianSSA, a Bayesian statistical model based on SSA. BayesianSSA extracts environmental information from perturbation datasets collected in environments of interest and integrates it into SSA predictions. Results We applied BayesianSSA to synthetic and real datasets of the central metabolic pathway of Escherichia coli. Our result demonstrates that BayesianSSA can successfully integrate environmental information extracted from perturbation data into SSA predictions. In addition, the posterior distribution estimated by BayesianSSA can be associated with the known pathway reported to enhance succinate export flux in previous studies. Conclusions We believe that BayesianSSA will accelerate the chemical bioproduction process and contribute to advancements in the field.

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