Pigeon-post communication via flow-transported nuclei shuttling signals between trapped nuclei enables rapid intracellular signaling in Physarum, outcompeting diffusion by up to 20 times.
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A computational study of capsule ejection from channel to reservoir finds that inter-capsule interactions and deformability strongly affect local velocity fields, with trains of three particles homogenizing flow and the leading capsule moving faster, while reservoir size has little effect.
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Coexistence of trapped and flow-transported nuclei enables fast pigeon post communication across multinucleated cell
Pigeon-post communication via flow-transported nuclei shuttling signals between trapped nuclei enables rapid intracellular signaling in Physarum, outcompeting diffusion by up to 20 times.
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Injection of Deformable Capsules in a Reservoir, a Systematic Analysis
A computational study of capsule ejection from channel to reservoir finds that inter-capsule interactions and deformability strongly affect local velocity fields, with trains of three particles homogenizing flow and the leading capsule moving faster, while reservoir size has little effect.