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Tissues as networks of cells: towards generative rules of complex organ development

Sabine Fischer, George W. Bassel, Philip Kollmannsberger

2023Journal of The Royal Society Interface12 citationsDOIOpen Access PDF

Abstract

Network analysis is a well-known and powerful tool in molecular biology. More recently, it has been introduced in developmental biology. Tissues can be readily translated into spatial networks such that cells are represented by nodes and intercellular connections by edges. This discretization of cellular organization enables mathematical approaches rooted in network science to be applied towards the understanding of tissue structure and function. Here, we describe how such tissue abstractions can enable the principles that underpin tissue formation and function to be uncovered. We provide an introduction into biologically relevant network measures, then present an overview of different areas of developmental biology where these approaches have been applied. We then summarize the general developmental rules underpinning tissue topology generation. Finally, we discuss how generative models can help to link the developmental rule back to the tissue topologies. Our collection of results points at general mechanisms as to how local developmental rules can give rise to observed topological properties in multicellular systems.

Topics & Concepts

Multicellular organismGenerative grammarBiological networkComputer scienceFunction (biology)Systems biologyDevelopment (topology)Modelling biological systemsBiologyArtificial intelligenceComputational biologyTopology (electrical circuits)MathematicsEvolutionary biologyMathematical analysisBiochemistryGeneCombinatoricsGene Regulatory Network AnalysisCell Image Analysis TechniquesBioinformatics and Genomic Networks
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