Tiopronin (CAS 1953-02-2): A Comprehensive Guide to Its Chemical Properties, Applications, and Scientific Research
Discover the multifaceted uses of Tiopronin, a vital compound in scientific research and pharmaceutical applications.
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Tiopronin
Tiopronin, known scientifically as N-(2-Mercaptopropionyl)glycine (CAS 1953-02-2), is a compound of significant interest in scientific research and development. Its primary utility lies in its role as a pharmaceutical intermediate and its antioxidant properties, making it valuable in various biochemical and medicinal studies.
- Explore the chemical properties of Tiopronin, including its solubility and melting point, crucial for accurate scientific applications.
- Understand the diverse applications of Tiopronin in research, from enzyme assays to gene expression studies, highlighting its versatility.
- Learn about Tiopronin's function as an antioxidant agent, contributing to the understanding of oxidative stress mechanisms.
- Discover how Tiopronin controls cystine precipitation and excretion, a key aspect of its biochemical function.
Key Advantages
Scientific Versatility
Leverage Tiopronin's wide range of scientific applications, from studying metabolism to investigating gene expression, a key area for N-(2-Mercaptopropionyl)glycine applications.
Antioxidant Capabilities
Benefit from Tiopronin's potent antioxidant properties, essential for research into cellular protection and oxidative stress, aligning with tiopronin antioxidant properties.
Biochemical Significance
Utilize Tiopronin in enzymatic studies, understanding its role as a substrate and inhibitor in various metabolic pathways, a critical aspect of tiopronin research use.
Key Applications
Pharmaceutical Research
Tiopronin serves as a valuable intermediate in the synthesis of various pharmaceutical compounds, supporting drug development and research into tiopronin chemical properties.
Biochemical Assays
Its role as an enzyme substrate and inhibitor makes Tiopronin indispensable for studying metabolic pathways and enzyme kinetics, particularly relevant for tiopronin enzyme inhibitor studies.
Oxidative Stress Studies
Tiopronin's antioxidant capabilities are crucial for research examining cellular damage and protection mechanisms related to oxidative stress.
Biomedical Investigations
Investigate the compound's effects on cystine precipitation and excretion in biomedical research, contributing to a deeper understanding of relevant physiological processes.