Emergent Spatiotemporal Organization in Stochastic Intracellular Transport Dynamics

arXiv - QuanBio - Subcellular Processes Pub Date : 2023-07-02 DOI:arxiv-2307.00639

Kunaal Joshi, Harrison York, Charles S. Wright, Rudro R. Biswas, Senthil Arumugam, Srividya Iyer-Biswas

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Abstract

The interior of a living cell is an active, fluctuating, and crowded environment. Yet, it maintains a high level of coherent organization, which is readily apparent in the intracellular transport network. Membrane-bound compartments called endosomes play a key role in carrying cargo, in conjunction with myriad components including cargo adaptor proteins, membrane sculptors, motor proteins, and the cytoskeleton. These components coordinate to effectively navigate the crowded cell interior and transport cargo to specific intracellular locations, even though the underlying protein interactions and enzymatic reactions exhibit stochastic behavior. A major challenge is to measure, analyze, and understand how, despite the inherent stochasticity of the constituent processes, the collective outcomes show an emergent spatiotemporal order that is precise and robust. This review focuses on this intriguing dichotomy, providing insights into the known mechanisms of noise suppression and noise utilization in intracellular transport processes, and also identifies opportunities for future inquiry.

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随机细胞内运输动力学中的涌现时空组织

活细胞的内部是一个活跃的、波动的、拥挤的环境。然而，它保持着高水平的连贯组织，这在细胞内运输网络中很明显。被称为核内体的膜结合腔室在运输货物中起着关键作用，它与包括货物衔接蛋白、膜雕刻蛋白、运动蛋白和细胞骨架在内的无数成分结合在一起。尽管潜在的蛋白质相互作用和酶促反应表现出随机行为，但这些成分协调有效地导航拥挤的细胞内部并将货物运输到特定的细胞内位置。一个主要的挑战是测量、分析和理解，尽管组成过程具有固有的随机性，但集体结果如何显示出一个精确而稳健的新兴时空秩序。这篇综述的重点是这一有趣的二分法，提供了对细胞内运输过程中噪声抑制和噪声利用的已知机制的见解，并确定了未来研究的机会。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - QuanBio - Subcellular Processes

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