Sodium Butyrate (CAS 156-54-7): A Comprehensive Guide to its Applications, Benefits, and Safe Handling
Explore the multifaceted roles of Sodium Butyrate, a key compound in cancer research and cellular metabolism, understanding its mechanisms and safe utilization.
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Sodium Butyrate
As a leading supplier in China, we offer high-purity Sodium Butyrate, a versatile compound with significant applications in biological research and therapeutic development. Its role as a histone deacetylase (HDAC) inhibitor is pivotal in modulating cellular processes like apoptosis and metabolism, making it a valuable ingredient for pharmaceutical research and development.
- Discover the intricate cellular metabolism modulation driven by Sodium Butyrate, a key aspect in understanding cancer cell behavior.
- Learn how Sodium Butyrate's SIRT3 inhibition contributes to apoptosis induction, a crucial mechanism in cancer therapy.
- Explore the impact of Sodium Butyrate on endoplasmic reticulum stress and autophagy, providing novel insights into its anti-tumorigenic effects.
- Understand the essential safe handling and storage practices for Sodium Butyrate to ensure product integrity and user safety.
Key Advantages of Using Sodium Butyrate
Potent HDAC Inhibition
Sodium Butyrate acts as a potent histone deacetylase inhibitor, influencing gene expression and cellular differentiation, which is vital for understanding cancer cell processes.
Apoptosis Induction
Its ability to induce apoptosis in cancer cells, particularly through SIRT3 inhibition, positions Sodium Butyrate as a promising compound for cancer treatment research.
Metabolic Pathway Modulation
The compound's effect on cellular metabolism, including PDC activation and complex I inhibition, offers significant opportunities for research into metabolic reprogramming in diseases like cancer.
Key Applications
Cancer Research
Investigate the anti-tumorigenic properties of Sodium Butyrate, particularly its role in inducing apoptosis and modulating cellular metabolism, contributing to advanced cancer therapy research.
Biological Studies
Utilize Sodium Butyrate in biological studies to understand fundamental cellular processes like SIRT3 inhibition, endoplasmic reticulum stress, and autophagy, critical for various physiological and pathological conditions.
Metabolic Pathway Analysis
Explore the impact of Sodium Butyrate on key metabolic pathways, such as PDC activation and complex I inhibition, for research into metabolic disorders and cancer.
Pharmaceutical Development
Leverage Sodium Butyrate as a high-quality ingredient in the development of novel pharmaceuticals, capitalizing on its established biological activities and therapeutic potential.