Cell-matrix interaction
Cell-matrix interactions are mediated by adhesion receptors and result in the creation of multi-protein adhesion structures that interact with the actin cytoskeleton at the interior of the cell (CMACs). They are collectively known as cell-matrix adhesion complexes.
These adhesions serve as crucial data processing hubs that allow cells to detect a variety of extracellular signals that contain details on the chemical, geometry, and physical characteristics of the ECM. Mechanosensitive cells communicate this information to subsequent mechanotransduction pathways and signalling cascades to affect a variety of processes, including the cell shape, polarity, fate, motility, and the deposition and/or restructuring of ECM components. The substrate type or chemical composition, its rigidity, and its surface topography influence force-induced events through CMACs.
Cell Junctions
Anchoring junctions and tight junctions are the other two types of cell junctions seen in vertebrates. Through proteins attached to the cytoskeleton of the cell, anchoring junctions hold cells together. Epithelial cells, which are cells found on the surface of the body and lining organs, frequently have tight junctions, which are regions where cells are joined very closely together to form a barrier.
While plant cells lack gap junctions, they do have plasmodesmata, which act as conduits to connect the cytoplasm of two nearby plant cells. Plasmodesmata have a different structure than gap junctions because plant cells have strong cell walls, but they serve roughly the same purpose. Through their plasmodesmata, plant cells may communicate with one another and control the movement of tiny chemicals.
Gap Junction
The fundamental structural and operational unit of all living things is the cell. Each cell has a cytoplasm that is surrounded by a membrane and is home to a variety of biomolecules, including proteins and nucleic acids.
Cells can develop specialised functions and perform a variety of tasks within the cell, including protein synthesis, DNA repair, replication, and motility. Within the cell, cells can specialise and move around. Due to their small size, the majority of cells are measured in micrometres.