Bovine serum albumin (BSA), which is in bovine serum A globulin containing 607 amino acid residues with a BSA molecular weight of 66.446kDa and an BSA isoelectric point of 4.7. Bovine serum albumin is widely used in biochemical experiments.
|Description||Type||Item NO||Source||Application||Recommend to use for|
|BSA- A||Extractive||GHB037||Bovine||EIA, LF, Fluorescent||/|
|BSA- B||Extractive||GHB035||Bovine||EIA, LF, Fluorescent||/|
Bovine Serum Albumin (BSA) is a protein found in cow's milk. It is commonly used in scientific research as a standard reference protein because of its stability and abundance. BSA has a molecular weight of approximately 66,430 Daltons and is composed of 583 amino acid residues. The BSA protein molecular weight is of particular interest because it plays a crucial role in many experiments and procedures.
One of the key properties of BSA bovine serum albumin is its isoelectric point (PL), which is the pH at which the protein has a net neutral charge. BSA bovine serum albumin has a pI of 4.9, meaning that at this pH, the protein will have no overall positive or negative charge. This makes BSA useful in certain laboratory applications, such as chromatography, where it can be separated based on its charge.
In addition to bovine serum albumin isoelectric point, the molecular weight of bovine serum albumin protein is also important in protein analysis. BSA is commonly used as a protein standard in gel electrophoresis because it is a well-characterized protein with a known molecular weight. By running a gel with a known amount of BSA bovine serum albumin, researchers can compare the migration of other proteins and calculate their size.
Bovine Serum Albumin (BSA) is a protein that is used in many scientific and medical applications. Bovine serum albumin protein is commonly used as a standard for calibration because of its purity and stable chemical structure. One of the crucial roles of BSA in the human body is its contribution to the immune system.The immune system is a complex network of cells, tissues, and organs that work together to fight against infections and diseases. BSA has been found to have a significant impact on the functions of various immune cells, such as T cells, B cells and dendritic cells.
The use of BSA Thermo in research has allowed scientists to study the interactions between BSA bovine serum albumin and immune cells. For instance, studies have shown that BSA stimulates the proliferation of T cells, which are critical immune cells that help to eliminate viruses and cancerous cells. This protein also enhances the maturation of dendritic cells, which play a crucial role in the activation of immune responses.
Furthermore, research on the SPA Albumin protein has indicated that it can bind and neutralize toxins, bacterial endotoxins, and other harmful substances in the body. By doing this, it helps to protect the body from infections, inflammation, and other related health issues.
BSA MW is a critical component of the immune system. Its ability to interact and stimulate immune cells is essential for maintaining a healthy immune response.Its effectiveness in immune modulation is critical, and its importance in medical applications cannot be overemphasized.
Bovine Serum Albumin (BSA) is a protein found in the serum of cattle that plays a vital role in many biological processes. This protein has a BSA molecular weight of 68-71 kDa, making it one of the most abundant proteins in the mammalian body. BSA is found in a variety of tissues and organs such as the liver, spleen, and blood, and is a key component of the extracellular matrix.
Clinically, BSA is used as a stabilizing agent in various pharmaceutical preparations, as a source of amino acids for nutrition, and in the diagnosis of various diseases. It has also been used in the diagnosis of diabetes and to monitor the effectiveness of antiretroviral therapy. Furthermore, BSA has been used to treat a variety of conditions, including allergies, cancer, and infectious diseases.
BSA has a wide range of therapeutic applications, and its molecular weight is a key factor in determining its effectiveness. Its ability to bind certain proteins, carbohydrates, and lipids, as well as its ability to form complexes with other proteins, are important considerations in determining its clinical utility. In addition, its molecular weight affects its ability to perform certain functions, such as carrying hormones and other molecules across the cell membrane.
BSA is an important protein with many clinical implications. Bovine serum albumin molecular weight is an important factor in determining its therapeutic efficacy and its ability to perform various functions. It is a valuable tool in the diagnosis and treatment of various diseases and is used in a wide range of pharmaceutical preparations.