What is Mechanobiology?Mechanobiology describes how physical factors, such as forces and mechanics, are able to influence biological systems at the molecular, cellular, and tissue level. The fundamental process which drives mechanobiology is mechanotransduction, the ability of cells to convert mechanical stimuli into biochemical signals. For [...]

How are forces transduced in a cellular environment?The application of the tensegrity, semiflexible chain and dipole polarization models to biological scenarios has proven most successful in the case of the tensegrity hypothesis (as reviewed in [1]). The models described above lead us to consider the [...]

How is Energy Transferred Across the Cellular System?Cellular systems function at a nanometer level and use a highly dynamic set of components. Both of these factors act as primary constraints that prevent the generation of momentum within the cell. Energy is therefore introduced into the [...]

Is Mechanosensing an Active Process?Types of MechanosensingWhen a cell periodically tests its external environment, a mechanical signal is converted to a chemical signal across the cell membrane. Adhesion receptors located on the external cell membrane bind to surface molecules (extracellular membrane (ECM) components or other [...]

What types of forces do cells encounter?Cells and subcellular structures experience forces from a variety of sources. In general, forces are developed from within the cell via the cytoskeleton (endogenous forces) or come from outside the cell (applied forces). Forces exerted on the cell are [...]

How does the cytoskeleton transmit mechanical forces?It is clear that mechanical forces and structural cues influence cell behavior by regulating signal processes. These signals go on to alter gene expression and reorganize the cytoskeleton and extracellular matrix (ECM), resulting in an orchestrated cellular response. The [...]

How do Focal Adhesions Facilitate Mechanosensing?Focal adhesions are known to sense both chemical and physical properties of their matrix environment. Chemical sensing is mediated by the different types of receptors that may function additively, synergistically or antagonistically [1],[2],[3],[4]. However, even with the molecular repertoire of [...]

How do Focal Adhesions Sense the Physical Properties of the Matrix?Based on the hypothetical protein switches, two models (1 and 2 below) have been put forth to describe the physical mechanism of focal adhesion mechanosensitivity (reviewed in [1]). These are formulated based on the principle [...]

The CellCells are the basic units of life; small machines that facilitate and sustain every process within a living organism. Muscle cells contract to maintain a heartbeat and allow us to move, neurons form networks that give rise to memories and enable thought processes. Epithelial [...]

Spatiotemporal control of DNA, RNA, protein and lipid synthesisIn eukaryotes, synthesis of DNA, RNA, proteins and lipids is performed in a spatiotemporal manner. Each molecule is produced within specialized organelles or compartments with strict regulatory mechanisms existing to control the timing and rate of synthesis. [...]

Protein LocalizationIn order for subcellular processes to be carried out within defined compartments or cellular regions, mechanisms must exist to ensure the required protein components are present at the sites and at an adequate concentration. The accumulation of a protein at a given site is [...]