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The Art of Exploring Diatom Biosilica Biomaterials: From Biofabrication Perspective.

Xiaojie SunMengxue ZhangJinfeng LiuGuangyan HuiXiguang ChenChao Feng
Published in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2023)
Diatom is a common single-cell microalgae with large species and huge biomass. Diatom biosilica (DB), the shell of diatom, is a natural inorganic material with a micro-nanoporous structure. Its unique hierarchical porous structure gives it great application potential in drug delivery, hemostat materials, and biosensors, etc. However, the structural diversity of DB determines its different biological functions. Screening hundreds of thousands of diatom species for structural features of DB that meet application requirements is like looking for a needle in a seaway. And the chemical modification methods lack effective means to control the micro-nanoporous structure of DB. The formation of DB is a typical biomineralization process, and its structural characteristics are affected by external environmental conditions, genes, and other factors. This allows to manipulate the micro-nanostructure of DB through biological regulation method, thereby transforming the screening mode of the structure function of DB from a needle in a seaway to biofabrication mode. This review focuses on the formation, biological modification, functional activity of DB structure, and its application in biomaterials field, providing regulatory strategies and research idea of DB from the perspective of biofabrication. It will also maximize the possibility of using DB as biological materials.
Keyphrases
  • drug delivery
  • single cell
  • transcription factor
  • high throughput
  • genome wide
  • human health
  • cancer therapy
  • label free