[HTML][HTML] Src kinase: Key effector in mechanosignalling
L Koudelková, J Brábek, D Rosel - … Journal of Biochemistry & Cell Biology, 2021 - Elsevier
L Koudelková, J Brábek, D Rosel
The International Journal of Biochemistry & Cell Biology, 2021•ElsevierCells have developed a unique set of molecular mechanisms that allows them to probe
mechanical properties of the surrounding environment. These systems are based on
deformable primary mechanosensors coupled to tension transmitting proteins and enzymes
generating biochemical signals. This modular setup enables to transform a mechanical load
into more versatile biochemical information. Src kinase appears to be one of the central
components of the mechanotransduction network mediating force-induced signalling across …
mechanical properties of the surrounding environment. These systems are based on
deformable primary mechanosensors coupled to tension transmitting proteins and enzymes
generating biochemical signals. This modular setup enables to transform a mechanical load
into more versatile biochemical information. Src kinase appears to be one of the central
components of the mechanotransduction network mediating force-induced signalling across …
Abstract
Cells have developed a unique set of molecular mechanisms that allows them to probe mechanical properties of the surrounding environment. These systems are based on deformable primary mechanosensors coupled to tension transmitting proteins and enzymes generating biochemical signals. This modular setup enables to transform a mechanical load into more versatile biochemical information. Src kinase appears to be one of the central components of the mechanotransduction network mediating force-induced signalling across multiple cellular contexts. In tight cooperation with primary sensors and the cytoskeleton, Src functions as an effector molecule necessary for transformation of mechanical stimuli into biochemical outputs executing cellular response and adaptation to mechanical cues.
Elsevier
