Mathematical Modelling and Analysis of the Brassinosteroid and Gibberellin Signalling Pathways and their Interactions
Henry R. Allen, Mariya Ptashnyk

TL;DR
This paper develops and analyzes mathematical models for brassinosteroid and gibberellin hormone signalling pathways in plants, highlighting the dominant role of transcription factor interactions in pathway crosstalk and stability.
Contribution
It introduces new coupled PDE-ODE models for BR and GA pathways, incorporating spatial heterogeneity and crosstalk mechanisms, with parameter estimation based on experimental data.
Findings
BZR-DELLA interaction significantly influences pathway dynamics.
Perturbations in GA pathway have larger effects than those in BR.
Crosstalk perturbations greatly impact BR pathway dynamics.
Abstract
The plant hormones brassinosteroid (BR) and gibberellin (GA) have important roles in a wide range of processes involved in plant growth and development. In this paper we derive and analyse new mathematical models for the BR signalling pathway and for the crosstalk between the BR and GA signalling pathways. To analyse the effects of spatial heterogeneity of the signalling processes, along with spatially-homogeneous ODE models we derive coupled PDE-ODE systems modelling the temporal and spatial dynamics of molecules involved in the signalling pathways. The values of the parameters in the model for the BR signalling pathway are determined using experimental data on the gene expression of BR biosynthetic enzymes. The stability of steady state solutions of our mathematical model, shown for a wide range of parameters, can be related to the BR homeostasis. Our results for the crosstalk model…
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Taxonomy
TopicsPlant Molecular Biology Research · Plant Reproductive Biology · Polysaccharides and Plant Cell Walls
