Jinsu Choi scite author profile

The cytoprotective coating of physicochemically labile mammalian cells with a durable material has potential applications in cell-based sensors, cell therapy, and regenerative medicine, as well as providing a platform for fundamental single-cell studies in cell biology. In this work, HeLa cells in suspension were individually coated with silica in a cytocompatible fashion through bioinspired silicification. The silica coating greatly enhanced the resistance of the HeLa cells to enzymatic attack by trypsin and the toxic compound poly(allylamine hydrochloride), while suppressing cell division in a controlled fashion. This bioinspired cytocompatible strategy for single-cell coating was also applied to NIH 3T3 fibroblasts and Jurkat cells.

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Cytocompatible Polymer Grafting from Individual Living Cells by Atom‐Transfer Radical Polymerization

Kim

et al. 2016

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A cytocompatible method of surface-initiated, activator regenerated by electron transfer, atom transfer radical polymerization (SI-ARGET ATRP) is developed for engineering cell surfaces with synthetic polymers. Dopamine-based ATRP initiators are used for both introducing the ATRP initiator onto chemically complex cell surfaces uniformly (by the material-independent coating property of polydopamine) and protecting the cells from radical attack during polymerization (by the radical-scavenging property of polydopamine). Synthetic polymers are grafted onto the surface of individual yeast cells without significant loss of cell viability, and the uniform and dense grafting is confirmed by various characterization methods including agglutination assay and cell-division studies. This work will provide a strategic approach to the generation of living cell-polymer hybrid structures and open the door to their application in multitude of areas, such as sensor technology, catalysis, theranostics, and cell therapy.

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Chemical sporulation and germination: cytoprotective nanocoating of individual mammalian cells with a degradable tannic acid–Fe^IIIcomplex

et al. 2015

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Individual mammalian cells were coated with cytoprotective and degradable films by cytocompatible processes maintaining the cell viability. Three types of mammalian cells (HeLa, NIH 3T3, and Jurkat cells) were coated with a metal-organic complex of tannic acid (TA) and ferric ion, and the TA-Fe(III) nanocoat effectively protected the coated mammalian cells against UV-C irradiation and a toxic compound. More importantly, the cell proliferation was controlled by programmed formation and degradation of the TA-Fe(III) nanocoat, mimicking the sporulation and germination processes found in nature.

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Cytocompatible in situ cross-linking of degradable LbL films based on thiol–exchange reaction

et al. 2015

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Cytoprotective Silica Coating of Individual Mammalian Cells through Bioinspired Silicification

et al. 2014

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The cytoprotective coating of physicochemically labile mammalian cells with a durable material has potential applications in cell‐based sensors, cell therapy, and regenerative medicine, as well as providing a platform for fundamental single‐cell studies in cell biology. In this work, HeLa cells in suspension were individually coated with silica in a cytocompatible fashion through bioinspired silicification. The silica coating greatly enhanced the resistance of the HeLa cells to enzymatic attack by trypsin and the toxic compound poly(allylamine hydrochloride), while suppressing cell division in a controlled fashion. This bioinspired cytocompatible strategy for single‐cell coating was also applied to NIH 3T3 fibroblasts and Jurkat cells.

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Jinsu Choi

Cytoprotective Silica Coating of Individual Mammalian Cells through Bioinspired Silicification

Cytocompatible Polymer Grafting from Individual Living Cells by Atom‐Transfer Radical Polymerization

Chemical sporulation and germination: cytoprotective nanocoating of individual mammalian cells with a degradable tannic acid–Fe^IIIcomplex

Cytocompatible in situ cross-linking of degradable LbL films based on thiol–exchange reaction

Cytoprotective Silica Coating of Individual Mammalian Cells through Bioinspired Silicification

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Product

Resources

About

Jinsu Choi

Cytoprotective Silica Coating of Individual Mammalian Cells through Bioinspired Silicification

Cytocompatible Polymer Grafting from Individual Living Cells by Atom‐Transfer Radical Polymerization

Chemical sporulation and germination: cytoprotective nanocoating of individual mammalian cells with a degradable tannic acid–FeIIIcomplex

Cytocompatible in situ cross-linking of degradable LbL films based on thiol–exchange reaction

Cytoprotective Silica Coating of Individual Mammalian Cells through Bioinspired Silicification

Contact Info

Product

Resources

About

Chemical sporulation and germination: cytoprotective nanocoating of individual mammalian cells with a degradable tannic acid–Fe^IIIcomplex