Fign (Rho Rac GTPASE Interacting Serine Threonine Kinase) is a serine threonine kinase that interacts with Rho Rac Gtappase, and its full name is Ficolin-Interacting Serine Threonine Kinase (Ficolin-interacting serine threonine kinase). FIGN recombinant protein is a biologically active protein that is expressed and purified by the FIGN gene in vitro. FIGN is involved in a variety of biological processes in cells, including cell proliferation and cell migration, and is essential for regulating cell function and behavior. Catalog No. PA1000-7784
The FIGN recombinant protein regulates its activity by binding to Rho Rac GTPASE, thereby affecting the skeletal reorganization and cell viability of cells. Rho Rac GTPASE is an important class of cell signaling proteins involved in the regulation of a variety of cell biological processes, such as cell polarity distribution, cell migration and proliferation. FIGN, as its kinase, can regulate the activity of Rho Rac GTPASE through phosphorylation, thereby affecting cell morphology and function.
In addition, studies have shown that FIGN can also interact with Ficolin protein and participate in the regulation of immune response. Ficolin is an oligosaccharide-binding protein in plasma that plays an important role in the immune response. The interaction between FIGN and Ficolin may affect the function of immune-related cells, which is of great significance for the host's antiviral and antibacterial immune responses.
In addition to its role in cell biology, FIGN also plays an important role in its occurrence and progression. Recent studies have shown that the expression level of FIGN in a variety of species is abnormal, which is closely related to biological characteristics such as infiltration and metastasis. FIGN may play an important role in cell migration and invasion by regulating the activity of Rho Rac GTPASE. Therefore, FIGN recombinant proteins also have important application prospects in related research.
In conclusion, FIGN recombinant protein, as a serine threonine kinase that interacts with Rho Rac GTPASE, plays an important role in cell biology, immune regulation, and tumor development. Through different mechanisms of action, FIGN is involved in the regulation of a variety of cell biological processes, which is essential for maintaining the normal function and behavior of cells. In the future, with the in-depth understanding of the biological functions of FIGN, its potential application prospects will be broader.