Patterning droplets with durotaxis

Patterning droplets with durotaxis

Numerous cell types have shown a remarkable ability to detect and move along gradients in stiffness of an underlying substrate—a process known as durotaxis. The mechanisms underlying durotaxis are still unresolved, but generally believed to involve active sensing and locomotion. Here, we show that s...

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Veröffentlicht in:Proc. Natl. Acad. Sci. USA 2013-07, Vol.110 (31), p.12541-12544
Hauptverfasser: Style, Robert W., Che, Yonglu, Park, Su Ji, Weon, Byung Mook, Je, Jung Ho, Hyland, Callen, German, Guy K., Power, Michael P., Wilen, Larry A., Wettlaufer, John S., Dufresne, Eric R.
Format: Artikel
Sprache:eng
Schlagworte:
Biological Sciences
Cell Movement - physiology
Cells
droplet control
droplets
elasticity
electrical properties
Flat surfaces
Gels
Interfacial tension
Liquids
Materials science
mechanosensing
Microfluidic Analytical Techniques
Models, Biological
Physical Sciences
physicochemical properties
Research universities
Silicones
soft matter
Solids
Stiffness
Substrates
surface tension
thermal properties
Topography
Wetting
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Zusammenfassung:Numerous cell types have shown a remarkable ability to detect and move along gradients in stiffness of an underlying substrate—a process known as durotaxis. The mechanisms underlying durotaxis are still unresolved, but generally believed to involve active sensing and locomotion. Here, we show that simple liquid droplets also undergo durotaxis. By modulating substrate stiffness, we obtain fine control of droplet position on soft, flat substrates. Unlike other control mechanisms, droplet durotaxis works without imposing chemical, thermal, electrical, or topographical gradients. We show that droplet durotaxis can be used to create large-scale droplet patterns and is potentially useful for many applications, such as microfluidics, thermal control, and microfabrication.
ISSN:0027-8424
1091-6490
1091-6490
DOI:10.1073/pnas.1307122110