SeSN3 is a gene associated with cellular stress response and survival, and plays an important biological function in cells. The protein encoded by it is called the seSN3 protein, which is a member of the family and maintains cellular homeostasis by regulating cell proliferation and signaling pathways. Recent studies have shown that the recombinant SES3 protein has great potential not only in terms of **, but also in the study of other diseases.
Catalog No. PA1000-7916
First, let's take a look at the basics of the SES3 protein. The SES3 protein is composed of 232 amino acid residues and has a molecular weight of about 26 kDa. It contains an N-terminal TUG domain, an intermediate CBS domain, and a C-terminal NTD domain, through which it binds to other proteins or ligands to perform its biological functions. In addition, the SES3 protein has different expression levels in different tissues and cell types, and is tissue-specific.
Recombinant SES3 protein plays an important role in biological functions. Studies have shown that SES3 protein promotes the occurrence of autophagy by regulating the mtorc1 signaling pathway in cells, thereby clearing damaged proteins and maintaining cellular homeostasis. In addition, SES3 protein can also promote apoptosis by inhibiting the AKT MTOR signaling pathway, thereby limiting cell growth and**. These two effects combine to provide the cell with a rapid stress response mechanism that protects the cell from the adverse effects of the external environment.
In addition to playing an important role in normal physiological conditions, the SES3 protein has also shown potential in diseases**. The researchers found that the expression level of SES3 protein decreases, and restoring the expression of SES3 protein can inhibit the growth and spread of cells, which has the potential. In addition, the SES3 protein has also demonstrated good results in the study of cardiovascular diseases, inflammation and neurological diseases, showing its potential as a novel ** target.
In summary, SES3 recombinant protein, as an important biological functional protein, plays an important role in the study of cellular stress response** and other diseases.