生物学中的集体运输和交通现象物理学:20 年来的进展

IF 13.7 1区 生物学 Q1 BIOLOGY Physics of Life Reviews Pub Date : 2024-11-19 DOI:10.1016/j.plrev.2024.11.008
Debashish Chowdhury , Andreas Schadschneider , Katsuhiro Nishinari
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引用次数: 0

摘要

自我们在本刊上发表关于生物学中的运输和交通现象的综述[1]以来,过去 20 年取得了巨大进步。在这篇简短的文章中,我们将介绍这一时期的主要进展。首先,我们介绍了由多个分子马达对单个微米大小的货物进行的细胞内集体运输与由一群蚂蚁根据共同的负载分担原则对一个货物颗粒进行的集体运输之间的异同。其次,我们勾画了几个模型,它们都是非对称简单排除过程(ASEP)的生物学扩展;其中一些模型代表了分子机器的运输,如 RNA 聚合酶(RNAP)和核糖体,它们分别催化 RNA 和蛋白质的模板定向聚合,而很少有其他模型能捕捉到蚂蚁在小径上运输的关键特征。更具体地说,利用基于 ASEP 的模型,我们证明了 RNAP 和核糖体的流动对基因表达中的随机和 "编程 "错误以及其他一些亚细胞过程的影响。我们回顾了捕食性蚂蚁 Leptogenys processionalis 单道运输的一个令人费解的经验结果,以及最近为解释这一谜题所做的尝试。我们还提到了在基于 ASEP 的军蚁三车道交通模型中观察到的变道规则的一些令人惊讶的效果。最后,我们解释了小径上蚂蚁之间以信息素为媒介的间接交流(称为stigmergy)与行人交通中人类之间以地场为媒介的互动在概念上的相似之处。对于人类行人交通的地面场模型,我们提出了一个重要的理论成果,它与所有类型的交通现象都有关联。
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Physics of collective transport and traffic phenomena in biology: Progress in 20 years
Enormous progress has been made in the last 20 years since the publication of our review [1] in this journal on transport and traffic phenomena in biology. In this brief article we present a glimpse of the major advances during this period. First, we present similarities and differences between collective intracellular transport of a single micron-size cargo by multiple molecular motors and that of a cargo particle by a team of ants on the basis of the common principle of load-sharing. Second, we sketch several models all of which are biologically motivated extensions of the Asymmetric Simple Exclusion Process (ASEP); some of these models represent the traffic of molecular machines, like RNA polymerase (RNAP) and ribosome, that catalyze template-directed polymerization of RNA and proteins, respectively, whereas few other models capture the key features of the traffic of ants on trails. More specifically, using the ASEP-based models we demonstrate the effects of traffic of RNAPs and ribosomes on random and ‘programmed’ errors in gene expression as well as on some other subcellular processes. We recall a puzzling empirical result on the single-lane traffic of predatory ants Leptogenys processionalis as well as recent attempts to account for this puzzle. We also mention some surprising effects of lane-changing rules observed in a ASEP-based model for 3-lane traffic of army ants. Finally, we explain the conceptual similarities between the pheromone-mediated indirect communication, called stigmergy, between ants on a trail and the floor-field-mediated interaction between humans in a pedestrian traffic. For the floor-field model of human pedestrian traffic we present a major theoretical result that is relevant from the perspective of all types of traffic phenomena.
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来源期刊
Physics of Life Reviews
Physics of Life Reviews 生物-生物物理
CiteScore
20.30
自引率
14.50%
发文量
52
审稿时长
8 days
期刊介绍: Physics of Life Reviews, published quarterly, is an international journal dedicated to review articles on the physics of living systems, complex phenomena in biological systems, and related fields including artificial life, robotics, mathematical bio-semiotics, and artificial intelligent systems. Serving as a unifying force across disciplines, the journal explores living systems comprehensively—from molecules to populations, genetics to mind, and artificial systems modeling these phenomena. Inviting reviews from actively engaged researchers, the journal seeks broad, critical, and accessible contributions that address recent progress and sometimes controversial accounts in the field.
期刊最新文献
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