# Fungal Frontiers in (Bio)sensing

**Authors:** Gerardo Grasso

PMC · DOI: 10.3390/bios16020131 · Biosensors · 2026-02-22

## TL;DR

This review explores how filamentous fungi can be used to develop advanced biosensors, highlighting their unique biological properties and potential for environmental and technological applications.

## Contribution

The paper provides a comprehensive review of recent advancements in fungal-based biosensing technologies over the past five years.

## Key findings

- Fungal secretome-derived biomolecules and mycogenic nanomaterials enhance biosensor performance.
- Mycelium-based materials enable novel signal transduction and biologically mediated computation.
- Fungal systems show promise for wearable devices and ecosystem monitoring through their electrical activity.

## Abstract

Filamentous fungi are increasingly recognized as versatile biological platforms for the development of advanced (bio)sensing technologies, owing to their extensive secretory capacity, material-forming ability, and intrinsic bioelectrical activity. This review critically surveys recent progress in fungal-based sensing within a multiscale framework spanning molecular, material, computational, and ecological domains, with particular emphasis on developments reported over the past five years. Key advances involving secretome-derived biomolecules, mycogenic nanomaterials, mycelium-based living materials, and fungal electrophysiology are discussed alongside emerging approaches for environmental monitoring that integrate sensor networks, imaging platforms, and data-driven analytics. Collectively, these works demonstrate that fungal systems can enhance biosensor sensitivity, selectivity, and sustainability, while enabling unconventional paradigms of signal transduction, material-integrated sensing, and biologically mediated computation. At larger spatial and temporal scales, mycelial growth dynamics and electrical activity provide measurable responses to mechanical, chemical, and environmental perturbations, supporting early applications in wearable devices, structural materials, and ecosystem monitoring. Despite significant progress, challenges remain in reproducibility, long-term stability, mechanistic understanding, and scalable device integration. Overall, the evidence reviewed highlights filamentous fungi as biologically adaptive and ecologically embedded systems with substantial potential to support next-generation (bio)sensing technologies, while underscoring the need for integrative approaches that combine biological insight with materials science, electronics, and artificial intelligence.

## Full-text entities

- **Diseases:** CQDs (MESH:D000080363), Hemolysis (MESH:D006461), diabetes mellitus (MESH:D003920), asthma (MESH:D001249), galactosemia (MESH:D005693), injury to (MESH:D014947), cobweb disease (MESH:D004194), MDR (MESH:D018088), Fungal (MESH:D009181), rhinitis (MESH:D012220), allergic rhinitis (MESH:D065631), toxicity (MESH:D064420), respiratory hypersensitivity (MESH:D012130), carcinogenic (MESH:D011230)
- **Chemicals:** glutamic acid (MESH:D018698), Cu (MESH:D003300), methyl parathion (MESH:D008743), AgCl (MESH:C037548), ascorbic acid (MESH:D001205), Ag (MESH:D012834), rhodamine 6G (MESH:C026188), SL (MESH:C000627985), polydopamine (MESH:C568283), domoic acid (MESH:C012301), Fe3O4 (MESH:C000499), glycolipids (MESH:D006017), D-galactose (MESH:D005690), hemicellulose (MESH:C007916), botryosphaeran (MESH:C483238), COF (MESH:C043212), ethanol (MESH:D000431), volatile organic compounds (MESH:D055549), per- and polyfluoroalkyl substances (MESH:D005466), nitrophenol (MESH:D009596), CeO2 (MESH:C030583), cardiolipin (MESH:D002308), ODA (MESH:C015126), methylene blue (MESH:D008751), water (MESH:D014867), Pullulan (MESH:C009109), ZnO (MESH:D015034), bisphenol A (MESH:C006780), PEDOT:PSS (MESH:C533756), catechin (MESH:D002392), Ir (MESH:D007495), benzoquinones (MESH:D016227), Fe (MESH:D007501), catechol (MESH:C034221), quercetin (MESH:D011794), Nitrogen (MESH:D009584), CdCO3 (MESH:C038075), uric acid (MESH:D014527), hydrocortisone (MESH:D006854), histidine (MESH:D006639), MOF (MESH:D000073396), polypyrrole (MESH:C067635), Ni (MESH:D009532), Polysaccharide (MESH:D011134), lactose (MESH:D007785), polymer (MESH:D011108), tricarboxylic acid (MESH:D014233), C (MESH:D002244), EtO (MESH:D005027), agar (MESH:D000362), chitin (MESH:D002686), monosaccharides (MESH:D009005), phosphatidic acid (MESH:D010712), Cr6+ (MESH:C120400), triglyceride (MESH:D014280), beta-(1,3)-glucan (MESH:C033363), DPPH (MESH:C004931), saline (MESH:D012965), Au (MESH:D006046), sugar acids (MESH:D013400)
- **Species:** Clitocybe nebularis (species) [taxon 117024], Pleurotus ostreatus (oyster mushroom, species) [taxon 5322], Ganoderma lucidum (species) [taxon 5315], Cerrena unicolor (species) [taxon 90312], Aureobasidium pullulans (species) [taxon 5580], Aspergillus sydowii (species) [taxon 75750], Phanerochaete (genus) [taxon 5305], Agrocybe cylindracea [taxon 64608], Fungi (kingdom) [taxon 4751], Ganoderma sp. PM-1 (species) [taxon 238919], Trichoderma asperellum (species) [taxon 101201], Coriolopsis trogii (species) [taxon 76130], Penicillium amagasakiense (species) [taxon 63559], Komagataella pastoris (species) [taxon 4922], Penicillium chrysogenum (species) [taxon 5076], Aleuria aurantia (orange peel mushroom, species) [taxon 5188], Trichoderma guizhouense (species) [taxon 1491466], Alternaria sect. Alternaria (section) [taxon 2499237], Lentinus polychrous (species) [taxon 292559], Boletus edulis (king bolete, species) [taxon 36056], Rhizopus arrhizus (species) [taxon 64495], Morchella (true morels, genus) [taxon 5193], Heterobasidion irregulare (species) [taxon 984962], Ganoderma resinaceum (species) [taxon 34465], Clonostachys solani (species) [taxon 160281], Penicillium expansum (species) [taxon 27334], Talaromyces flavus (species) [taxon 5095], Aspergillus oryzae (species) [taxon 5062], Laccaria bicolor (species) [taxon 29883], Saccharomyces cerevisiae (baker's yeast, species) [taxon 4932], Helostroma bacarum (species) [taxon 105769], Rasamsonia emersonii (species) [taxon 68825], Ceratobasidium sp. (species) [taxon 1768090], Fusarium graminearum (species) [taxon 5518], Aspergillus niger (species) [taxon 5061], Rigidoporus microporus (species) [taxon 219653], Armillaria gallica (species) [taxon 47427], Trametes versicolor (turkey-tail fungus, species) [taxon 5325], Pleurotus djamor (species) [taxon 34470], Tomentella (genus) [taxon 56494], Irpex sp. (species) [taxon 1929763], Flammulina velutipes (species) [taxon 38945], Trichoderma virens (species) [taxon 29875], Omphalotus nidiformis (species) [taxon 71963], Ganoderma sessile (species) [taxon 101940], Mortierella (genus) [taxon 4855], Escherichia coli (E. coli, species) [taxon 562], Agaricus bisporus (common mushroom, species) [taxon 5341], Volvariella volvacea (paddy straw mushroom, species) [taxon 36659], Schizophyllum commune (species) [taxon 5334], Botrytis cinerea (gray fruit mold, species) [taxon 40559], Neurospora crassa (species) [taxon 5141], Trametes sanguinea (species) [taxon 158606], Mucidula mucida (porcelain mushroom, species) [taxon 139077], Botryosphaeria (genus) [taxon 45132], Hypomyces rosellus (species) [taxon 5132], Cladosporium (genus) [taxon 5498], Cordyceps militaris (species) [taxon 73501], Fusarium oxysporum (species) [taxon 5507], Hebeloma danicum (species) [taxon 91669]
- **Mutations:** L545C, L547R, Q448H, T166R, C in 100

## Full text

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## Figures

21 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12938827/full.md

## References

280 references — full list in the complete paper: https://tomesphere.com/paper/PMC12938827/full.md

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Source: https://tomesphere.com/paper/PMC12938827