2013
DOI: 10.1002/adfm.201300038
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Biomimetic Coatings to Control Cellular Function through Cell Surface Engineering

Abstract: Biologically inspired materials and structures with tailored biological, physical, and chemical properties provide an indispensable platform to actively modulate and protect cell function in hostile and synthetic environments (e.g., devices or matrices). Herein, recent innovations are discussed in cell surface engineering methods based on bulk hydrogels, microgels, and ultrathin capsules derived from inorganic, polymeric, biomolecular, or nanoparticle materials applicable to various protective and interaction … Show more

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Cited by 111 publications
(81 citation statements)
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References 209 publications
(202 reference statements)
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“…59 Actually, the outermost layer of the material mainly governs the interaction with biological tissues or biological responses to the synthetic biomaterials and the living system. Amine groups are generally considered to play a critical role in regulating the growth behavior of cells.…”
Section: Discussionmentioning
confidence: 99%
“…59 Actually, the outermost layer of the material mainly governs the interaction with biological tissues or biological responses to the synthetic biomaterials and the living system. Amine groups are generally considered to play a critical role in regulating the growth behavior of cells.…”
Section: Discussionmentioning
confidence: 99%
“…The antimicrobial or bacteriostatic effects of the growth inhibition of bacteria at certain higher concentrations build or construct the environment for protection from other microorganism's invasion into the microalgal culture system, similar to the results of a microalgae culture with fungicides taking on the inhibitory role of sterol synthesis . For instance, aminoclay-nanoparticle-coated microalgal cells, which mimic silica-coated cells (Ko et al, 2013;Drachuk et al, 2013), can be used to provide protection from harsh conditions including the stressful conditions formed by nutrient-uptake competitors. Importantly, re-culture of microalgae in the presence of aminoclay using supernatant media after harvesting of microalgal biomass show that aminoclay has almost no toxicity or any negative effects on microalgal culture (Farooq et al, 2013a).…”
Section: Perspectives and Future Directionsmentioning
confidence: 99%
“…Interface 11: 20140537 and why such materials are an important advantage in hardtissue regeneration [55][56][57]. New research is investigating the potential of nanometric internal and external modulation of cells, viruses, bacteria and embryos with biomimetic inorganic mineralization strategies.…”
Section: Bioinorganic Materials and Influences On Cell Regenerationmentioning
confidence: 99%