Effect of a constant magnetic field on morphology and motility of cell with cytoskeleton-associated magnetic nanoparticles
Karavashkova, O.; Maltseva, A.; Minin, A. S.; Demin, A.; Tin, P.; Aitova, A.; Tsvelaya, V.; Latypova, A. A.; Zubarev, I.
Show abstract
1.Cell motility, shape supporting, and intracellular signaling are followed by changes in cell morphology and cytoskeleton. The cell reaction and the reorganization of the cytoskeleton occurs in a single volume of the cytoplasm and affects all components of the cytoskeleton: intermediate filaments, microtubules and microfilaments. A promising way to manipulate cells is magnetic nanoparticles that control cellular physiology. This approach is called magnetogenetics and has found application in various fields of cell and molecular biology. Using a magnetic field, it is possible to non-invasively regulate biochemical processes, migration and changes in the morphology of cells with magnetic nanoparticles. Our work opens up new possibilities for spatial manipulation of individual cytoskeletal components in vitro and operates biochemical pathways associated with individual cytoskeletal components.
Matching journals
The top 10 journals account for 50% of the predicted probability mass.