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fungal-mycelium

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Recent advances in bioengineering and functional applications of microbial biocomposites: integrating bacterial cellulose, fungal mycelium and synthetic biology.

PubMed · 2026-05-19

Scientists are combining bacteria-made cellulose and mushroom-like fungal threads into next-generation materials that can be tailored for bone repair, biodegradable packaging, and pollution cleanup — all without petroleum-based plastics.

1

Bacterial cellulose from Komagataeibacter combined with Ganoderma fungal mycelium can be mineralized with hydroxyapatite (the same mineral in bone) to create scaffolds that actively support bone regrowth.

2

Incorporating plant fibers and nanomaterials like graphene oxide into these biocomposites significantly expands their mechanical and functional properties for packaging and remediation uses.

3

Self-healing 'living materials' engineered through synthetic biology are emerging as a viable class of biocomposites, though industrial scaling and batch-to-batch consistency remain key unsolved challenges.

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biodegradable-packaging synthetic-biology phytoremediation sustainable-materials