Fungal Automata

IF 0.5 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Complex Systems Pub Date : 2020-03-18 DOI:10.25088/complexsystems.29.4.759

A. Adamatzky, E. Goles, G. J. Martínez, Michail-Antisthenis I. Tsompanas, M. Tegelaar, H. Wosten

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引用次数: 4

Abstract

We study a cellular automaton (CA) model of information dynamics on a single hypha of a fungal mycelium. Such a filament is divided in compartments (here also called cells) by septa. These septa are invaginations of the cell wall and their pores allow for the flow of cytoplasm between compartments and hyphae. The septal pores of the fungal phylum of the Ascomycota can be closed by organelles called Woronin bodies. Septal closure is increased when the septa become older and when exposed to stress conditions. Thus, Woronin bodies act as informational flow valves. The one-dimensional fungal automaton is a binary-state ternary neighborhood CA, where every compartment follows one of the elementary cellular automaton (ECA) rules if its pores are open and either remains in state 0 (first species of fungal automata) or its previous state (second species of fungal automata) if its pores are closed. The Woronin bodies closing the pores are also governed by ECA rules. We analyze a structure of the composition space of cell-state transition and pore-state transition rules and the complexity of fungal automata with just a few Woronin bodies, and exemplify several important local events in the automaton dynamics.

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我们研究了真菌菌丝体单个菌丝的信息动力学的细胞自动机(CA)模型。这样的丝被隔片分成小室(这里也称为细胞)。这些间隔是细胞壁的内陷，它们的孔允许细胞质在隔室和菌丝之间流动。子囊菌门真菌门的间隔孔可以被称为Woronin小体的细胞器关闭。当间隔变老和暴露在压力条件下时，间隔闭合增加。因此，沃罗宁体充当信息流阀门。一维真菌自动机是一种二元状态三元邻域CA，其中每个隔室如果其孔隙是开放的，则遵循基本元胞自动机(ECA)规则之一，如果其孔隙是关闭的，则保持在状态0(第一种真菌自动机)或其先前状态(第二种真菌自动机)。关闭毛孔的沃罗宁体也受ECA规则的支配。我们分析了细胞状态转换和孔状态转换规则组成空间的结构，以及只有几个Woronin体的真菌自动机的复杂性，并举例说明了自动机动力学中几个重要的局部事件。

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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来源期刊

Complex Systems MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-

CiteScore

1.80

自引率

25.00%

发文量