Add to ORKGSpatial patterning of proteins is a valuable technique for many biological applications and is the prevailing tool for defining microenvironments for cells in culture, a required procedure in developmental biology and tissue engineering research. However, it is still challenging to achieve protein patterns that closely mimic native microenvironments, such as gradient protein distributions with desirable mechanical properties. By combining projection dynamic mask lithography and protein engineering with non-canonical photosensitive amino acids, we demonstrate a simple, scalable strategy to fabricate any user-defined 2D or 3D stable gradient pattern with complex geometries from an artificial extracellular matrix (aECM) protein. We show that t...
The binding interaction between specialized proteins within the extracellular matrix (ECM) and speci...
Abstract: A new method for producing molecular gradi-ents of arbitrary shape in thin three dimension...
The extracellular microenvironment is an important regulator of cell functions. Numerous structural ...
Spatial patterning of proteins is a valuable technique for many biological applications and is the p...
Culturing cells on gradient nanopatterns provides a useful tool to explore cellular adhesion to mimi...
Gradients of biomolecules on synthetic, solid substrates can efficiently mimic the natural, graded v...
High resolution lithography combined with microcontact printing (µCP) by means of polyolefine polyme...
Graded distributions of proteins are pivotal for many signaling processes during development, such a...
The extracellular matrix is an important regulator of cell function. Environmental cues existing in ...
In order to mimic the compositional diversity of natural extra-cellular matrices (ECMs) we propose h...
We report a new method for the micropatterning of multiple proteins and cells with micrometer-scale ...
A new method for producing molecular gradients of arbitrary shape in thin three dimensional gels is ...
Coupling of rapid prototyping techniques and surface-confined polymerizations allows the fabrication...
The extracellular microenvironment is an important regulator of cell functions. Numerous structural ...
In this work, we propose an easy method to produce highly tunable gradients of covalently bound prot...
The binding interaction between specialized proteins within the extracellular matrix (ECM) and speci...
Abstract: A new method for producing molecular gradi-ents of arbitrary shape in thin three dimension...
The extracellular microenvironment is an important regulator of cell functions. Numerous structural ...
Spatial patterning of proteins is a valuable technique for many biological applications and is the p...
Culturing cells on gradient nanopatterns provides a useful tool to explore cellular adhesion to mimi...
Gradients of biomolecules on synthetic, solid substrates can efficiently mimic the natural, graded v...
High resolution lithography combined with microcontact printing (µCP) by means of polyolefine polyme...
Graded distributions of proteins are pivotal for many signaling processes during development, such a...
The extracellular matrix is an important regulator of cell function. Environmental cues existing in ...
In order to mimic the compositional diversity of natural extra-cellular matrices (ECMs) we propose h...
We report a new method for the micropatterning of multiple proteins and cells with micrometer-scale ...
A new method for producing molecular gradients of arbitrary shape in thin three dimensional gels is ...
Coupling of rapid prototyping techniques and surface-confined polymerizations allows the fabrication...
The extracellular microenvironment is an important regulator of cell functions. Numerous structural ...
In this work, we propose an easy method to produce highly tunable gradients of covalently bound prot...
The binding interaction between specialized proteins within the extracellular matrix (ECM) and speci...
Abstract: A new method for producing molecular gradi-ents of arbitrary shape in thin three dimension...
The extracellular microenvironment is an important regulator of cell functions. Numerous structural ...