Issue 29, 2018

Mechanics of cellular packing of nanorods with finite and non-uniform diameters

Abstract

To understand the mechanics of cellular/intracellular packing of one-dimensional nanomaterials, we performed theoretical analysis and molecular dynamics simulations to investigate how the morphology and mechanical behaviors of a lipid vesicle are regulated by encapsulated rigid nanorods of finite and non-uniform diameters, including a cylindrical rod, a rod with widened ends, a cone-shaped rod, and a screwdriver-shaped rod. As the rod length increases, the vesicle evolves from a sphere into different shapes, such as a lemon, a conga drum, a cherry, a bowling pin, or a tubular shape for long and thick rods. The contact between the vesicle protrusion and the rod plays an important role in regulating the vesicle tubulation, membrane tension, and axial contact force on the rod. Our analysis provides a theoretical basis to understand a wide range of experiments on morphological transitions that occur in cellular packing of actin or microtubule bundles, mitotic cell division, and intracellular packing of carbon nanotubes.

Graphical abstract: Mechanics of cellular packing of nanorods with finite and non-uniform diameters

Supplementary files

Article information

Article type
Paper
Submitted
21 May 2018
Accepted
27 Jun 2018
First published
27 Jun 2018

Nanoscale, 2018,10, 14090-14099

Author version available

Mechanics of cellular packing of nanorods with finite and non-uniform diameters

X. Yi, G. Zou and H. Gao, Nanoscale, 2018, 10, 14090 DOI: 10.1039/C8NR04110E

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