Microscale control of cell contact and spacing via three-component surface patterning - Wikidata - awgldk - TriplyDB

Microscale control of cell contact and spacing via three-component surface patterning

Microscale control of cell contact and spacing via three-component surface patterning

http://www.wikidata.org/entity/Q35133378

about

Co-culture systems and technologies: taking synthetic biology to the next level Microfluidic device to control interstitial flow-mediated homotypic and heterotypic cellular communication A fast and accessible methodology for micro-patterning cells on standard culture substrates using Parafilm™ inserts Imaging surface immobilization chemistry: correlation with cell patterning on non-adhesive hydrogel thin films.On-demand killing of adherent cells on photo-acid-generating culture substrates.Engineering systems for the generation of patterned co-cultures for controlling cell-cell interactions.A Macro-to-Micro Interface for the Control of Cellular Organization.Subcellular spatial segregation of integrin subtypes by patterned multicomponent surfaces Exercising spatiotemporal control of cell attachment with optically transparent microelectrodes.Embryonic and induced pluripotent stem cells as a model for liver disease.Micropatterned multicolor dynamically adhesive substrates to control cell adhesion and multicellular organization Microfluidic probes for use in life sciences and medicine.Biodegradable meshes printed with extracellular matrix proteins support micropatterned hepatocyte cultures.Integrating sensing hydrogel microstructures into micropatterned hepatocellular cocultures.Multifunctional surfaces with discrete functionalized regions for biological applications Characterization of microfluidic human epidermal keratinocyte culture.Site-specific differentiation of neural stem cell regulated by micropatterned multicomponent interfaces.Patterning of sharp cellular interfaces with a reconfigurable elastic substrate.Freeform micropatterning of living cells into cell culture medium using direct inkjet printing.Microcontact printing with aminosilanes: creating biomolecule micro- and nanoarrays for multiplexed microfluidic bioassays.Multiplex cell microarrays for high-throughput screening.Regulation of morphogenesis and neural differentiation of human mesenchymal stem cells using carbon nanotube sheets.

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P2860

Microscale control of cell contact and spacing via three-component surface patterning

http://www.wikidata.org/entity/Q35133378

description

2007 nî lūn-bûn

@nan

2007 թուականի Յունուարին հրատարակուած գիտական յօդուած

@hyw

2007 թվականի հունվարին հրատարակված գիտական հոդված

@hy

2007年の論文

@ja

2007年論文

@yue

2007年論文

@zh-hant

2007年論文

@zh-hk

2007年論文

@zh-mo

2007年論文

@zh-tw

2007年论文

@wuu

name

Microscale control of cell contact and spacing via three-component surface patterning

@ast

Microscale control of cell contact and spacing via three-component surface patterning

@en

type

label

Microscale control of cell contact and spacing via three-component surface patterning

@ast

Microscale control of cell contact and spacing via three-component surface patterning

@en

prefLabel

Microscale control of cell contact and spacing via three-component surface patterning

@ast

Microscale control of cell contact and spacing via three-component surface patterning

@en

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Microscale control of cell contact and spacing via three-component surface patterning

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P2093

Sangeeta N Bhatia

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P2860

E-cadherin engagement stimulates proliferation via Rac1

Emergent patterns of growth controlled by multicellular form and mechanics.

Immunological synapse arrays: patterned protein surfaces that modulate immunological synapse structure formation in T cells.

Effect of cell-cell interactions in preservation of cellular phenotype: cocultivation of hepatocytes and nonparenchymal cells.

Fabrication of aligned microstructures with a single elastomeric stamp.

Patterned deposition of cells and proteins onto surfaces by using three-dimensional microfluidic systems.

Surface engineering approaches to micropattern surfaces for cell-based assays.

Cells on chips.

Patterning of immobilized antibody layers via photolithography and oxygen plasma exposure.

Microcontact printing for precise control of nerve cell growth in culture.

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4103-4107

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scholarly article

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10.1021/LA0630559

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8

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23

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6558946

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17243746

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3145459

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