Brusatol: Chemical Formula Properties and Applications

REF #: 3199433
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Short description

Brusatol is a compound with the chemical formula C23H26O9 and CAS number 14907-98-3. It is also known as (11u0152u2264,12u0152u00b1,15u0152u2264)-13,20-Epoxy-3,11,12-trihydroxy-15-[(3-methyl-1-oxo-2-buten-1-yl)oxy]-2,16-dioxo-picras-3-en-21-oic acid methyl ester.

Key Features:

  • u2265 95% purity (HPLC): Ensures high-quality and reliable results for various applications
  • Used for studying the protective role of Nrf2 in intestinal ischemia/reperfusion induced iSML1868: Enables research on Nrf2 and its effects on intestinal health
  • Also known as (+)-Brusatol, Brutasol, NSC 172924, Yatansin: Provides alternative names for easy recognition
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Description

Brusatol: Chemical Formula Properties and Applications

Brusatol is a remarkable compound with the chemical formula C23H26O9 and CAS number 14907-98-3. It belongs to the picrasane family and is also known by its systematic name, (11u0152u2264,12u0152u00b1,15u0152u2264)-13,20-Epoxy-3,11,12-trihydroxy-15-[(3-methyl-1-oxo-2-buten-1-yl)oxy]-2,16-dioxo-picras-3-en-21-oic acid methyl ester.

With its unique structure and properties, Brusatol has garnered significant attention in the scientific community. It is predominantly utilized for studying the protective role of Nrf2 (nuclear factor erythroid 2-related factor 2) in intestinal ischemia/reperfusion induced iSML1868. By investigating Brusatol's effects on Nrf2, researchers aim to discover potential therapeutic interventions for ischemia/reperfusion injuries, particularly in the intestine.

Key Features:

  • u2265 95% purity (HPLC): Brusatol is available in a high-purity form, ensuring researchers can rely on its quality and consistency for their experiments.
  • Used for studying the protective role of Nrf2 in intestinal ischemia/reperfusion induced iSML1868: Brusatol's primary application lies in the field of gastrointestinal research. It allows scientists to delve into the mechanisms underlying ischemia/reperfusion injuries and explore the protective effects of Nrf2.
  • Also known as (+)-Brusatol, Brutasol, NSC 172924, Yatansin: Brusatol goes by several alternative names, which can be useful for identifying the compound in scientific literature and discussions.

Brusatol's chemical composition and structure make it a fascinating subject of study. Its molecular formula, C23H26O9, provides insight into its constituents:

  • Carbon (C): Brusatol contains 23 carbon atoms, which form the backbone of the molecule, giving it stability and a distinct shape.
  • Hydrogen (H): With 26 hydrogen atoms, Brusatol contributes to its overall structure and participates in various chemical interactions.
  • Oxygen (O): Comprising 9 oxygen atoms, oxygen plays a vital role in Brusatol's reactivity, binding to other atoms and influencing its chemical behavior.

Furthermore, the unique arrangement of these atoms within Brusatol results in its notable properties and biological activity. Its picrasane skeleton, characterized by a fused ring system, contributes to its potency and mode of action.

As a powerful tool in scientific investigations, Brusatol offers researchers the means to explore complex biological processes and unravel potential therapeutic targets. By focusing on the protective role of Nrf2 and its involvement in intestinal ischemia/reperfusion injuries, scientists can unlock crucial insights for developing novel treatments that can alleviate tissue damage in a clinical setting.

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