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Related Experiment Video

Updated: Feb 2, 2026

Live-cell Video Microscopy of Fungal Pathogen Phagocytosis
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Published on: January 9, 2013

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Towards fungal computer.

Andrew Adamatzky1

  • 1Unconventional Computing Lab, UWE, CSCT, Bristol, UK.

Interface Focus
|November 17, 2018
PubMed
Summary

Fungi Basidiomycetes can function as biological computers, using electrical spikes for information and mycelium networks for computation. Experiments show fungal electrical activity indicates responses to stimuli and enables information transfer between fruiting bodies.

Area of Science:

  • Mycology
  • Computational Biology
  • Bio-computing

Background:

  • Fungi possess complex networks (mycelium) and electrical signaling capabilities.
  • Previous research explored fungal electrical activity but not its computational potential.

Purpose of the Study:

  • To investigate the potential of Basidiomycete fungi as biological computing devices.
  • To demonstrate information processing and transfer within fungal networks.

Main Methods:

  • Recording electrical activity from fungal fruit bodies under thermal and chemical stimulation.
  • Developing an automaton model to simulate fungal computation.
  • Analyzing mycelium geometry's role in computational function.

Main Results:

Keywords:
funginatural computationunconventional computing

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  • Fungal electrical activity reliably indicates responses to external stimuli.
  • Stimulation of one fruit body alters the electrical activity of others, demonstrating information transfer.
  • The automaton model shows computation is achievable and influenced by mycelium structure.

Conclusions:

  • Basidiomycete fungi exhibit properties suitable for bio-computing applications.
  • Electrical signaling in fungi facilitates information processing and transfer.
  • Mycelium geometry is a key factor in determining the computational logic of fungal networks.