ATP dependence of decision-making capacity in a fine-grained model of gene regulatory networks

Author:

Kumar Rajneesh1,Johnston Iain G.12ORCID

Affiliation:

1. Department of Mathematics, University of Bergen, Bergen, Norway

2. Computational Biology Unit, University of Bergen, Bergen, Norway

Abstract

Cellular decision-making is fundamental to life, from developmental biology to environmental responses and antimicrobial resistance. Many regulatory processes that drive cellular decisions rely on gene expression, which requires energy in the form of ATP. As even genetically identical cells can have dramatically different ATP levels, bioenergetic status can be an important source of variability in cellular decision-making. Existing studies have investigated this energy dependence but often use coarse-grained modelling approaches (which are not always readily connected to the underlying molecular processes of gene regulation). Here, we use a fine-grained mathematical model of gene expression in a two-gene decision-making regulatory network to explore cellular decision-making capacity as energy availability varies. We simulate both a deterministic model, to explore the emergence of different cell fate attractors as ATP levels vary, and a stochastic case to explore how ATP influences the noisy dynamics of stochastic cell decision-making. Higher energy levels typically support increased decision-making capacity (higher numbers of, and more separated, cell states that can be selected), and the fine-grained modelling reveals some differences in behaviour from previous coarse-grained modelling approaches.

Funder

European Research Council

Centre for Antimicrobial Resistance

European Union

Trond Mohn Foundation

Publisher

The Royal Society

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