Vim (vimentin) is a cytoskeletal protein that is mainly expressed in glial cells and mesodermal cells. This protein is considered to be one of the main components of the cytoskeleton and plays an important role in maintaining cell morphology, participating in cell migration, and cell signaling. VIM recombinant proteins are proteins with specific functions obtained by genetic engineering technology in vitro, which are widely used in biomedical research and drug development.
Catalog No. PA1000-8107
VIM recombinant proteins are typically produced by E. coli or mammalian cell expression systems, and purified and analyzed for structural analysis to produce high-purity protein samples. These protein samples can be used for protein-protein interaction studies, drug screening, and biological function studies. By regulating the expression and structure of VIM recombinant protein, we can deepen its mechanism of action in biological processes such as cytoskeleton formation, cell migration and signal transduction.
In terms of biological function, VIM recombinant protein plays an important role in the assembly and stability maintenance of the cytoskeleton. The cytoskeleton is a scaffold structure composed of a variety of proteins in the cell, which can support and maintain cell morphology and participate in biological processes such as cell motility and differentiation. As an intermediate filament protein, vim protein plays a bridging role in the cytoskeleton, connecting different cytoskeletal components such as microfilaments and microtubules to maintain the stability and morphology of the cell.
In addition, viM recombinant proteins are also involved in biological processes such as cell migration and invasion. Cell migration is an essential activity in the process of cell growth and development and tissue repair, and the expression of vim protein is closely related to the regulation of cell migration. Studies have shown that VIM protein can regulate cell adhesion and motility by interacting with other proteins, affecting the ability of cells to invade in diseases such as metastasis.
In conclusion, VIM recombinant proteins, as an important component of the cytoskeleton, play an important role in biological functions such as cell morphology maintenance, cell migration, and signal transduction. Through the study of VIM protein, we can have a deeper understanding of the organization and function of the cytoskeleton, and provide an important theoretical basis for the prevention and development of related diseases.