Boolean Modeling: a Logic-based Dynamic Approach for Understanding Signaling and Regulatory Networks and for Making Useful Predictions

Overview

Journal Wiley Interdiscip Rev Syst Biol Med

Specialties Biology
General Medicine
Medical Informatics

Date 2014 Oct 2

PMID 25269159

Citations 60

Authors

Reka Albert

Juilee Thakar

Affiliations

Soon will be listed here.

Abstract

The biomolecules inside or near cells form a complex interacting system. Cellular phenotypes and behaviors arise from the totality of interactions among the components of this system. A fruitful way of modeling interacting biomolecular systems is by network-based dynamic models that characterize each component by a state variable, and describe the change in the state variables due to the interactions in the system. Dynamic models can capture the stable state patterns of this interacting system and can connect them to different cell fates or behaviors. A Boolean or logic model characterizes each biomolecule by a binary state variable that relates the abundance of that molecule to a threshold abundance necessary for downstream processes. The regulation of this state variable is described in a parameter free manner, making Boolean modeling a practical choice for systems whose kinetic parameters have not been determined. Boolean models integrate the body of knowledge regarding the components and interactions of biomolecular systems, and capture the system's dynamic repertoire, for example the existence of multiple cell fates. These models were used for a variety of systems and led to important insights and predictions. Boolean models serve as an efficient exploratory model, a guide for follow-up experiments, and as a foundation for more quantitative models.

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