Transport in cellular aggregates described by fluctuating hydrodynamics

Chakraborti S, Zaburdaev V (2024)


Publication Type: Journal article

Publication year: 2024

Journal

Book Volume: 6

Article Number: 043064

Issue: 4

Journal Issue: 4

DOI: 10.1103/PhysRevResearch.6.043064

Abstract

Biological functionality of cellular aggregates is largely influenced by the activity and displacements of individual constituent cells. From a theoretical perspective this activity can be characterized by hydrodynamic transport coefficients of diffusivity and conductivity. Motivated by the clustering dynamics of bacterial microcolonies we propose a model of active multicellular aggregates and use recently developed macroscopic fluctuation theory to derive a fluctuating hydrodynamics for this model system. Both semianalytic theory and microscopic simulations show that the hydrodynamic transport coefficients are affected by nonequilibrium microscopic parameters and significantly decrease inside of the clusters. We further find that the Einstein relation connecting the transport coefficients and fluctuations breaks down in the parameter regime where the detailed balance is not satisfied. This study offers valuable tools for experimental investigation of hydrodynamic transport in other systems of cellular aggregates such as tumor spheroids and organoids.

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APA:

Chakraborti, S., & Zaburdaev, V. (2024). Transport in cellular aggregates described by fluctuating hydrodynamics. Physical Review Research, 6(4). https://doi.org/10.1103/PhysRevResearch.6.043064

MLA:

Chakraborti, Subhadip, and Vasily Zaburdaev. "Transport in cellular aggregates described by fluctuating hydrodynamics." Physical Review Research 6.4 (2024).

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