2-Aminoethyl Hydrogen Sulfate: A Key Biochemical and Pharmaceutical Compound
Explore the multifaceted applications and scientific significance of 2-Aminoethyl Hydrogen Sulfate, a vital chemical intermediate.
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2-Aminoethyl Hydrogen Sulfate
An ester of sulfuric acid and ethanolamine, this compound is recognized for its role as a GABA transaminase inhibitor. This function makes it a crucial biochemical tool in studies investigating GABA metabolism. Additionally, its diuretic and anticonvulsant properties highlight its potential in various scientific and pharmaceutical research contexts.
- Discover the biochemical tool applications of 2-Aminoethyl Hydrogen Sulfate in GABA metabolism studies.
- Understand the diuretic and anticonvulsant properties of CAS 926-39-6 for potential therapeutic research.
- Explore the chemical synthesis of ethanolamine derivatives, understanding its role as a key intermediate.
- Learn about the specific properties of CAS 926-39-6, including its appearance and purity, crucial for precise research.
Advantages Offered by the Product
Versatile Biochemical Functionality
Leverage 2-Aminoethyl Hydrogen Sulfate as a critical biochemical tool for in-depth studies of GABA transaminase inhibition and its impact on GABA metabolism pathways.
Therapeutic Potential
Investigate the promising diuretic and anticonvulsant effects of this compound, opening avenues for research in neurological and renal health applications.
High Purity and Quality
Benefit from a product with a purity of 98% or higher, ensuring reliable and reproducible results in your fine chemical synthesis and research endeavors.
Key Applications
Biochemical Research
Utilize 2-Aminoethyl Hydrogen Sulfate as a biochemical tool to explore GABA transaminase activity and neurotransmitter metabolism.
Pharmaceutical Development
Investigate its potential as a diuretic and anticonvulsant agent in the development of new therapeutic compounds.
Fine Chemical Synthesis
Employ this compound as a versatile intermediate in the synthesis of complex organic molecules and pharmaceutical precursors.
Academic Research
Support cutting-edge scientific inquiry by using a well-characterized compound for laboratory studies on neurological and physiological processes.