Issue 6, 2022

Transport of a self-propelled tracer through a hairy cylindrical channel: interplay of stickiness and activity

Abstract

Active transport of biomolecules assisted by motor proteins is imperative for the proper functioning of cellular activities. Inspired by the diffusion of active agents in crowded cellular channels, we computationally investigate the transport of an active tracer through a polymer grafted cylindrical channel by varying the activity of the tracer and stickiness of the tracer to the polymers. Our results reveal that the passive tracer exhibits profound subdiffusion with increasing stickiness by exploring deep into the grafted polymeric zone, while purely repulsive one prefers to diffuse through the pore-like space created along the cylindrical axis of the channel. In contrast, the active tracer shows faster dynamics and intermediate superdiffusion even though the tracer preferentially stays close to the dense polymeric region. This observation is further supported by the sharp peaks in the density profile of the probability of radial displacement of the tracer. We discover that the activity plays an important role in deciding the pathway that the tracer takes through the narrow channel. Interestingly, increasing the activity washes out the effect of stickiness. Adding to this, van-Hove functions manifest that the active tracer dynamics deviates from Gaussianity, and the degree of deviation grows with the activity. Our work has direct implications on how effective transportation and delivery of cargo can be achieved through a confined medium where activity, interactions, and crowding are interplaying. Looking ahead, these factors will be crucial for understanding the mechanism of artificial self-powered machines navigating through the cellular channels and performing in vivo challenging tasks.

Graphical abstract: Transport of a self-propelled tracer through a hairy cylindrical channel: interplay of stickiness and activity

Supplementary files

Article information

Article type
Paper
Submitted
29 Nov 2021
Accepted
15 Jan 2022
First published
17 Jan 2022

Soft Matter, 2022,18, 1310-1318

Transport of a self-propelled tracer through a hairy cylindrical channel: interplay of stickiness and activity

R. Sahoo, L. Theeyancheri and R. Chakrabarti, Soft Matter, 2022, 18, 1310 DOI: 10.1039/D1SM01693H

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