Electrical spiking of psilocybin fungi.

Q2 Agricultural and Biological Sciences

Communicative and Integrative Biology Pub Date : 2022-10-24 eCollection Date: 2022-01-01 DOI:10.1080/19420889.2022.2136118

Antoni Gandia, Andrew Adamatzky

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Abstract

Psilocybin fungi, aka "magic" mushrooms, are well known for inducing colorful and visionary states of mind. Such psychoactive properties and the ease of cultivating their basidiocarps within low-tech setups make psilocybin fungi promising pharmacological tools for mental health applications. Understanding of the intrinsic electrical patterns occurring during the mycelial growth can be utilized for better monitoring the physiological states and needs of these species. In this study we aimed to shed light on this matter by characterizing the extra-cellular electrical potential of two popular species of psilocybin fungi: Psilocybe tampanensis and P. cubensis. As in previous experiments with other common edible mushrooms, the undisturbed fungi have shown to generate electric potential spikes and trains of spiking activity. This short analysis provides a proof of intrinsic electrical communication in psilocybin fungi, and further establishes these fungi as a valuable tool for studying fungal electro-physiology.

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裸盖菇素真菌的电脉冲。

裸盖菇素真菌，又名“神奇”蘑菇，以诱导色彩缤纷和幻想的精神状态而闻名。这种精神活性特性以及在低技术条件下培育担子果的便性使裸盖菇素真菌有希望成为精神健康应用的药理工具。了解菌丝生长过程中发生的内在电模式可以更好地监测这些物种的生理状态和需求。在这项研究中，我们旨在通过表征两种常见的裸盖菇素真菌的细胞外电位来阐明这一问题:Psilocybe tampanensis和P. cubensis。与之前对其他普通食用蘑菇的实验一样，未受干扰的真菌显示出产生电位峰值和峰值活动的序列。这一简短的分析为裸盖菇素真菌的内在电通讯提供了证据，并进一步确立了这些真菌作为研究真菌电生理的有价值的工具。

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