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Competition between phase interface and activity-induced heterogeneity in nonequilibrium cellular uptake

Xueqing Jin, Zheng Jiao, Li J, Xiaobin Dai, Li‐Tang Yan
June 6, 2026
Published Date

Research Abstract & Technology Focus

Abstract The dynamic interplay between activity and phase separation is essential to a broad range of physiological functions. Yet a fundamental understanding of the impact of this nonequilibrium physical process on cellular uptake remains elusive. Combining simulations, theory and experimental discussions, here we explore this crucial process by elucidating the nonequilibrium interactions of active particles with phase-separated cell membranes. In stark contrast to the generally considered homogeneous characteristic of membranes, our simulations demonstrate that the activity generates remarkable heterogeneity of membrane density and active tension along a neck zone, which becomes more eminent at the interface between two phase domains. A theoretical model is further developed to reveal that the competition between the neck tip of the heterogeneous membrane and the phase interface critically governs the uptake of active particles. It yields theoretical diagrams of different characteristic dynamic states related to the uptake in various parameter spaces, as confirmed by systematic simulations. The agreement between theoretical model and simulations establishes the physical basis for this phase-interface-regulated cellular uptake out of equilibrium, which bears broad implications in understanding diverse behaviors of living activities as delineated in the experimental discussions. More generally, our results provide a framework for understanding active, nonequilibrium interactions and physics at cellular interfaces in a broad biological and biotechnological context.
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Correlated Market Trend: Competition (biology)

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Frequently Asked Questions (FAQ)

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What is the core focus of the research titled 'Competition between phase interface and activity-induced heterogeneity in nonequilibrium cellular uptake'?

This literature focuses on: Abstract The dynamic interplay between activity and phase separation is essential to a broad range of physiological functions. Yet a fundamental understanding of the impact of this nonequilibrium physical process on cellular uptake remains elusive...

Are there commercial applications of 'Competition between phase interface and activity-induced heterogeneity in nonequilibrium cellular uptake' in GitHub?

Yes, highly correlated activity was mapped. An entry titled 'Featured Proposal:Supervisory Interface for Long-Horizon Interaction-Empirical Evidence from 180-Day LSO Trace' discusses this: This detailed proposal identifies critical limitations in `AttnRes` for 'long-horizon human–AI interactions,' specifically 'attention saturation' a...

What other academic literature is closely related to 'Competition between phase interface and activity-induced heterogeneity in nonequilibrium cellular uptake'?

Yes, highly correlated activity was mapped. An entry titled 'Molecular interaction induced dual fibrils towards organic solar cells with certified efficiency over 20%' discusses this: No description provided.

Are there commercial applications of 'Competition between phase interface and activity-induced heterogeneity in nonequilibrium cellular uptake' in market news publications?

Yes, highly correlated activity was mapped. An entry titled 'Competitive interactions shape mammalian brain network dynamics and computation' discusses this: Brain network architecture may balance cooperation and competition across circuits. Here the authors use computational whole-brain modeling across ...

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