Tetra-O-pivaloyl-alpha-D-glucopyranosyl Bromide: A Key Glycosyl Donor
Discover the power of advanced glycosylation reagents for your synthetic chemistry needs.
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Tetra-O-pivaloyl-alpha-D-glucopyranosyl Bromide
This high-purity white solid is an essential reagent in modern organic synthesis, particularly for complex carbohydrate chemistry. Its primary function as a Kōnig's-Knorr glycosyl donor makes it invaluable for efficient and selective glycosylation reactions, offering a significant advantage over traditional reagents by minimizing unwanted orthoester side products. This property is critical for the successful preparation of diverse glycoconjugates and pharmaceutical intermediates.
- Leverage the Kōnig's-Knorr glycosyl donor for enhanced synthetic efficiency, ensuring higher yields and cleaner reaction profiles in your complex organic synthesis projects.
- Explore its application in pharmaceutical intermediates synthesis, as CAS 81058-27-7 serves as a vital building block for numerous drug candidates.
- Benefit from reduced orthoester side products during glycosylation reactions, a key advantage for researchers focused on precise molecular construction.
- Facilitate the preparation of glucosylated monoterpenoids, such as rhodiolosides A and D, expanding possibilities in natural product synthesis and medicinal chemistry.
Advantages You Gain
Superior Glycosylation Selectivity
As a highly effective Kōnig's-Knorr glycosyl donor, this compound ensures excellent control over stereochemistry, crucial for synthesizing complex molecules with specific biological activities. Utilize this for precise organic synthesis glycosylation reagents.
Broad Application in Drug Discovery
Its role as a key pharmaceutical intermediate CAS 81058-27-7 makes it indispensable for research and development in the pharmaceutical sector, contributing to the creation of novel therapeutics.
Streamlined Synthesis Workflow
The minimized formation of side products, particularly orthoesters, streamlines your glycoconjugate synthesis reagents workflow, saving time and resources in your laboratory.
Key Applications
Pharmaceutical Research
Critical for synthesizing drug candidates and studying biological pathways; explore its use in pharmaceutical intermediates synthesis.
Cosmetic Formulations
Its derivatives can be utilized in advanced cosmetic formulations, leveraging its unique chemical properties.
Advanced Organic Synthesis
A versatile reagent for creating complex carbohydrate structures and glycoconjugates, vital for advanced organic synthesis techniques.
Natural Product Synthesis
Essential for the preparation of compounds like glucosylated monoterpenoids, aiding in the study and synthesis of natural compounds.