High-Purity Sodium Taurodeoxycholate: Applications in Biochemical Research and Drug Delivery
A key bile salt for advanced research and development in life sciences and pharmaceuticals.
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Sodium Taurodeoxycholate
Sodium Taurodeoxycholate is a high-purity bile salt renowned for its versatile applications in biochemical research and the pharmaceutical industry. It serves as a crucial anionic detergent and is instrumental in the solubilization of lipids and cell membrane proteins, making it indispensable for studies involving biological membranes and protein isolation.
- Explore the efficacy of Sodium Taurodeoxycholate as a lipase accelerator in various biochemical processes.
- Utilize this essential bile salt ingredient for preparing specialized bacterial culture media, aiding in the growth and separation of intestinal bacteria.
- Discover the benefits of sodium taurodeoxycholate powder as a key component in cell membrane protein solubilization, enhancing research accuracy.
- Leverage the properties of CAS 1180-95-6 applications for advanced studies in metabolic systems and inflammatory reaction inhibition.
Advantages of Sodium Taurodeoxycholate
Enhanced Solubilization
Facilitates the dissolution of hydrophobic compounds, crucial for studying lipids and cell membrane boundary proteins, thereby aiding cell membrane protein solubilization.
Biochemical Research Utility
Serves as a vital tool in understanding metabolic systems and acts as a lipase accelerator, supporting critical research in areas like bile salt biochemical research.
Versatile Applications
From preparing specialized bacterial culture media to acting as an anion remover for protein dissolution, its diverse uses support numerous scientific disciplines, including the need for a bacterial culture medium ingredient.
Key Applications
Biochemical Research
A fundamental reagent for studying enzyme kinetics and metabolic pathways, especially when exploring bile salt biochemical research.
Pharmaceutical Development
Its role as a pharmaceutical raw material and its use in drug delivery systems make it valuable for novel therapeutic advancements.
Cell Biology
Essential for isolating and studying membrane proteins, supporting accurate cell membrane protein solubilization in laboratory settings.
Microbiology
Critical for formulating specific growth media for various microorganisms, highlighting its importance as a bacterial culture medium ingredient.