Add to ORKGABSTRACT Mechanical force organizes life at all scales, from molecules to cells and tissues. Although we have made remarkable progress unraveling the mechanics of life’s individual building blocks, our understanding of how they give rise to the mechanics of larger-scale bio-logical structures is still poor. Unlike the engineered macroscopic structures that we com-monly build, biological structures are dynamic and self-organize: they sculpt themselves and change their own architecture, and they have structural building blocks that generate force and constantly come on and off. A description of such structures defies current traditional mechanical frameworks. It requires approaches that account for active force-generating parts and for the fo...
Tensile integrity across the scales of the living matter: a structural picture of the human cell ...
ABSTRACT Cells are made up of complex assemblies of cytoskeletal proteins that facilitate force tran...
We discuss emerging views on the complexity of signals controlling the onset of biological shapes an...
© 2014 Dumont and Prakash.Mechanical force organizes life at all scales, from molecules to cells and...
Cells display a high degree of functional organization, largely attributed to the intracellular biop...
International audiencePatterns are ubiquitous in living systems and underlie the dynamic organizatio...
Mechanical force is present in all aspects of living systems. It affects the conformation of molecul...
Mechanical signals are important regulators of cell behavior. Key to understanding their role is the...
International audienceThe way in which interactions between mechanics and biochemistry lead to the e...
The world of natural materials and structures provides an abundance of applications in which mechani...
By traveling through the inner structure of biological tissues, for instance by means of a scanning ...
The way organisms develop from the initial single-cellular state to a complex final assembly like th...
All living organisms utilize thousands of molecular building blocks to perform mechanical tasks. The...
Morphogenesis in living tissues is the paramount example of a time- and space-dependent orchestratio...
Tensile integrity principle governs the existence of stable constructs in which sets of pre-tensed c...
Tensile integrity across the scales of the living matter: a structural picture of the human cell ...
ABSTRACT Cells are made up of complex assemblies of cytoskeletal proteins that facilitate force tran...
We discuss emerging views on the complexity of signals controlling the onset of biological shapes an...
© 2014 Dumont and Prakash.Mechanical force organizes life at all scales, from molecules to cells and...
Cells display a high degree of functional organization, largely attributed to the intracellular biop...
International audiencePatterns are ubiquitous in living systems and underlie the dynamic organizatio...
Mechanical force is present in all aspects of living systems. It affects the conformation of molecul...
Mechanical signals are important regulators of cell behavior. Key to understanding their role is the...
International audienceThe way in which interactions between mechanics and biochemistry lead to the e...
The world of natural materials and structures provides an abundance of applications in which mechani...
By traveling through the inner structure of biological tissues, for instance by means of a scanning ...
The way organisms develop from the initial single-cellular state to a complex final assembly like th...
All living organisms utilize thousands of molecular building blocks to perform mechanical tasks. The...
Morphogenesis in living tissues is the paramount example of a time- and space-dependent orchestratio...
Tensile integrity principle governs the existence of stable constructs in which sets of pre-tensed c...
Tensile integrity across the scales of the living matter: a structural picture of the human cell ...
ABSTRACT Cells are made up of complex assemblies of cytoskeletal proteins that facilitate force tran...
We discuss emerging views on the complexity of signals controlling the onset of biological shapes an...