Particle-induced perturbations cause self-similar viscous pinch-off in stretching liquid ligaments independent of particle size, with an analytical pinch-off time from ligament stretching and Rayleigh-Plateau instability matching simulations.
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2 Pith papers cite this work. Polarity classification is still indexing.
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Brownian dynamics simulations demonstrate that multi-scale chromatin fiber geometry and network organization control the positioning, size, morphology, and multiplicity of liquid-liquid phase separated condensates via protein-fiber interactions.
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Self-similar breakup of a liquid ligament with a solid particle
Particle-induced perturbations cause self-similar viscous pinch-off in stretching liquid ligaments independent of particle size, with an analytical pinch-off time from ligament stretching and Rayleigh-Plateau instability matching simulations.
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A Brownian dynamics study of liquid-liquid phase separation in multi-scale chromatin networks
Brownian dynamics simulations demonstrate that multi-scale chromatin fiber geometry and network organization control the positioning, size, morphology, and multiplicity of liquid-liquid phase separated condensates via protein-fiber interactions.