Beauvericin CAS 26048-05-5: A Comprehensive Overview
Explore the potent biological activities and research applications of this fungal-derived cyclic depsipeptide.
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Beauvericin
Beauvericin (CAS 26048-05-5) is a significant cyclic depsipeptide isolated from various fungal genera, noted for its extensive biological activities. Its ionophore properties and ability to inhibit acyl-CoA:cholesterol acyltransferase activity make it a compound of considerable interest in scientific research.
- Investigate the Beauvericin biological activities: This compound exhibits broad antifungal, antibacterial, antiprotozoan, and insecticidal effects, offering a wide spectrum of potential applications.
- Understand Beauvericin mechanism of action: Delve into its ionophore properties and its specific inhibition of acyl-CoA:cholesterol acyltransferase, crucial for understanding its cellular impact.
- Explore fungal metabolites applications: As a potent metabolite, Beauvericin provides insights into the complex chemical defenses and signaling pathways found in fungi.
- Leverage Beauvericin CAS 26048-05-5 for research: Its well-defined CAS number facilitates precise identification and procurement for laboratory studies and development.
Key Advantages
Broad Spectrum Efficacy
Discover the wide-ranging antifungal, antibacterial, antiprotozoan, and insecticidal effects of Beauvericin, making it a versatile agent in natural product research.
Mechanistic Insights
Gain understanding from Beauvericin's unique ionophore properties and its role in inhibiting crucial biological pathways, supporting advanced research.
Cellular Impact Studies
Examine how Beauvericin induces apoptosis by elevating intracellular calcium levels, providing valuable data for cell biology and toxicology studies.
Key Applications
Antimicrobial Research
The broad-spectrum antimicrobial properties of Beauvericin make it a key compound for developing new agents against resistant pathogens.
Apoptosis Studies
Its ability to induce apoptosis by altering intracellular calcium levels provides a valuable tool for cancer research and cell death pathway investigations.
Ionophore Chemistry
As a natural ionophore, Beauvericin is instrumental in studying ion transport mechanisms across cell membranes.
Insecticidal Agents
The observed insecticidal activity suggests potential applications in agricultural pest control and understanding insect physiology.