Cell-Sized Confinements Alter Molecular Diffusion in Concentrated Polymer Solutions Due to Length-Dependent Wetting of Polymers

Abstract: Living cells are characterized by the micrometric confinement of various macromolecules at high concentrations. Using droplets containing binary polymer blends as artificial cells, we previously showed that cell-sized confinement causes phase separation of the binary polymer solutions because of the lengthdependent wetting of the polymers. Here, we demonstrate that the confinement-induced heterogeneity of polymers also emerges in single-component polymer solutions. The resulting structural heterogeneity also l… Show more

“…Smaller values (about 2 kJ/mol) are usually obtained for the same substitution at the planar GR surface. A similar behavior is observed in silica−polystyrene nanocomposites, 37 as well as in experiments and simulations of polydisperse dextran in emulsion droplets, 68 suggesting that the preference for short chains at the particle surface is quite general. 69−71 This selectivity for beads belonging to short chains is absent (calculated free energy differences are close to zero) if both short and long chains have a size comparable to or larger than that of the CB particle, as in Figure 8E.…”

Effect of Bidispersity on Polymer-Bound Layers of Carbon Black Primary Particles: Combining Large-Scale Simulations and Experiments

“…Smaller values (about 2 kJ/mol) are usually obtained for the same substitution at the planar GR surface. A similar behavior is observed in silica−polystyrene nanocomposites, 37 as well as in experiments and simulations of polydisperse dextran in emulsion droplets, 68 suggesting that the preference for short chains at the particle surface is quite general. 69−71 This selectivity for beads belonging to short chains is absent (calculated free energy differences are close to zero) if both short and long chains have a size comparable to or larger than that of the CB particle, as in Figure 8E.…”

Effect of Bidispersity on Polymer-Bound Layers of Carbon Black Primary Particles: Combining Large-Scale Simulations and Experiments

“…Despite the improvements to the model, that more realistically represent the experimental findings compared to uniform membrane diffusion, there is still something missing that remains to be elucidated in experiments. A possible explanation might be linked to the diffusion properties of the crowded and structural cytosolic environment, that can lead to heterogeneous intracellular diffusion (Kanakubo et al, 2023) . The current model does not account for that, but considers a simplified linear global PTEN uptake only (see Eq.…”

Self-organization of PIP3 signaling is controlled by the confinement, topology, and curvature of the cell membrane

Self-organization of PIP3 waves is controlled by the topology and curvature of cell membranes