Add to ORKGIn recent years, some attention has been directed towards the possibility that mechanical forces could play a role in creating the expression patterns observed in vertebrate body parts. By compressing regions of cultured embryonic mesenchymal stem cells from mouse autopods, this study provides a novel way of testing effects of mechanochemical stimulation of the Turing mechanism responsible for digit patterning in mice. The study found important features to be included in these compression systems for mesenchymal cells: Com- pressing a small area of the culture, using transparent pistons, and maintaining a stable environment from vibrations and disturbances. The results suggest that mechanical forces upregulates Sox9 in the boundary between ...
Poster Session 4 (SYIS Competition) - Cellular Technology and Stem Cells, Postdoc and Young Investig...
<p>(A)-(B) Simulation snapshots showing spontaneous pattern formation based on a simple mechanochemi...
© 2017 The Author(s). To divide, most animal cells drastically change shape and round up against ext...
Background: During embryogenesis, chemical (morphogen) and mechanical patterns develop within tissue...
International audienceDuring embryonic development, digits gradually emerge in a periodic pattern. A...
Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue development...
Multiple vertebrate embryonic structures such as organ primordia are composed of confluent cells. Al...
Organ primordia shape is important for pattern formation and organ function. Morphogenesis generates...
More than a century ago, it was proposed that mechanical forces could drive tissue formation. Howeve...
Within the past decade, there has been abounding scientific evidences supporting the notion that mec...
Animal development consists of a cascade of tissue differentiation and shape change. Associated mech...
Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue development...
<div><p>Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue dev...
In living cells and organisms there is a myriad of biomolecules that are able to activate specific c...
Although it is known that mechanical forces are needed for normal bone development, the current unde...
Poster Session 4 (SYIS Competition) - Cellular Technology and Stem Cells, Postdoc and Young Investig...
<p>(A)-(B) Simulation snapshots showing spontaneous pattern formation based on a simple mechanochemi...
© 2017 The Author(s). To divide, most animal cells drastically change shape and round up against ext...
Background: During embryogenesis, chemical (morphogen) and mechanical patterns develop within tissue...
International audienceDuring embryonic development, digits gradually emerge in a periodic pattern. A...
Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue development...
Multiple vertebrate embryonic structures such as organ primordia are composed of confluent cells. Al...
Organ primordia shape is important for pattern formation and organ function. Morphogenesis generates...
More than a century ago, it was proposed that mechanical forces could drive tissue formation. Howeve...
Within the past decade, there has been abounding scientific evidences supporting the notion that mec...
Animal development consists of a cascade of tissue differentiation and shape change. Associated mech...
Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue development...
<div><p>Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue dev...
In living cells and organisms there is a myriad of biomolecules that are able to activate specific c...
Although it is known that mechanical forces are needed for normal bone development, the current unde...
Poster Session 4 (SYIS Competition) - Cellular Technology and Stem Cells, Postdoc and Young Investig...
<p>(A)-(B) Simulation snapshots showing spontaneous pattern formation based on a simple mechanochemi...
© 2017 The Author(s). To divide, most animal cells drastically change shape and round up against ext...