Litcius/Paper detail

Fluctuations of cell geometry and their nonequilibrium thermodynamics in living epithelial tissue

Mark Olenik, Jake Turley, Stephen Cross, Helen Weavers, Paul Martin, Isaac V. Chenchiah, Tanniemola B. Liverpool

2023Physical review. E14 citationsDOI

Abstract

We measure different contributions to entropy production in a living functional epithelial tissue. We do this by extracting the functional dynamics of development while at the same time quantifying fluctuations. Using the translucent Drosophila melanogaster pupal epithelium as an ideal tissue for high-resolution live imaging, we measure the entropy associated with the stochastic geometry of cells in the epithelium. This is done using a detailed analysis of the dynamics of the shape and orientation of individual cells which enables separation of local and global aspects of the tissue behavior. Intriguingly, we find that we can observe irreversible dynamics in the cell geometries but without a change in the entropy associated with those degrees of freedom, showing that there is a flow of energy into those degrees of freedom. Hence, the living system is controlling how the entropy is being produced and partitioned into its different parts.

Topics & Concepts

Non-equilibrium thermodynamicsEntropy (arrow of time)Entropy productionDegrees of freedom (physics and chemistry)PhysicsBiological systemDrosophila melanogasterLiving cellBoltzmann's entropy formulaStatistical physicsBiophysicsClassical mechanicsBiologyThermodynamicsBoltzmann equationBiochemistryGeneGene Regulatory Network AnalysisCellular Mechanics and Interactionsthermodynamics and calorimetric analyses