Thermosensory Spiking Activity of Proteinoid Microspheres Cross-Linked by Actin Filaments

Mougkogiannis, Panagiotis; Adamatzky, Andrew

doi:10.1021/acs.langmuir.4c01107

Langmuir

2024

DOI: 10.1021/acs.langmuir.4c01107

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Thermosensory Spiking Activity of Proteinoid Microspheres Cross-Linked by Actin Filaments

Panagiotis Mougkogiannis,

Andrew Adamatzky

Abstract: Actin, found in all eukaryotic cells as globular (G) or filamentous (F) actin, undergoes polymerization, with G-actin units changing shape to become F-actin. Thermal proteins, or proteinoids, are created by heating amino acids (160−200 °C), forming polymeric chains. These proteinoids can swell in an aqueous solution at around 50 °C, producing hollow microspheres filled with a solution, exhibiting voltage spikes. Our research explores the signaling properties of proteinoids, actin filaments, and hybrid networks… Show more

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2024

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Cited by 2 publications

References 119 publications

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Kombucha–Chlorella–Proteinoid Biosynthetic Classifiers of Audio Signals

Mougkogiannis,

Nikolaidou,

Adamatzky

2024

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This paper describes the development of a bioinspired composite material capable of audio classification applications. Hydrogel matrices produced by microorganisms combined with synthetic biology elements, allow for the development of adaptable bioelectronics that connect biology and technology in a customized way. In this study, a composite population of kombucha, chlorella, and proteinoids (thermal proteins) is utilized to respond to acoustic signals converted to electrical waveforms. The kombucha zoogleal mats, which are made and populated by over 60 species of yeasts and bacteria, offer a matrix at the micro level that is connected to the photosynthetic microalgae chlorella. Proteinoids formed through thermal condensation exhibit unique patterns of signaling kinetics. This living material has the ability to be electrically stimulated and can process signals in a way feasible for sensory applications. Using English alphabet audio inputs, a systematic analysis demonstrates the capability to differentiate audio waveforms based solely on biological composite responses. The use of spectral analysis allows for the identification of specific spike timing patterns that encode unique characteristics of individual letters. Moreover, network disturbances result in specific changes in output, so validating the ability to adjust waveform classification. The study demonstrates that kombucha–chlorella–proteinoid composites provide a durable and versatile bioelectronic platform for immediate auditory processing. The work represents progress toward the development of bioelectronic systems that can be customized based on the principles of biological sensory processing, cognition, and adaptation.

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Kombucha–Chlorella–Proteinoid Biosynthetic Classifiers of Audio Signals

Mougkogiannis,

Nikolaidou,

Adamatzky

2024

Nano Select

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Light-induced spiking response in proteinoid–actin–kombucha system

Mougkogiannis,

Nikolaidou,

Adamatzky

2024

Mater. Adv.

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Thermosensory Spiking Activity of Proteinoid Microspheres Cross-Linked by Actin Filaments

Cited by 2 publications

References 119 publications

Kombucha–Chlorella–Proteinoid Biosynthetic Classifiers of Audio Signals

Kombucha–Chlorella–Proteinoid Biosynthetic Classifiers of Audio Signals

Light-induced spiking response in proteinoid–actin–kombucha system

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