(R)-(-)-4-Benzyl-3-propionyl-2-oxazolidinone: A Key Intermediate for Anisomycin Analogues and Pathway Activation
Discover the critical role of (R)-(-)-4-Benzyl-3-propionyl-2-oxazolidinone in advanced pharmaceutical synthesis and biological research. Explore its applications in creating novel anisomycin analogues and modulating key cellular signaling pathways, making it an invaluable compound for cutting-edge drug discovery.
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(R)-(-)-4-Benzyl-3-propionyl-2-oxazolidinone
As a leading supplier in China, we provide high-quality (R)-(-)-4-Benzyl-3-propionyl-2-oxazolidinone, a critical pharmaceutical intermediate. Its unique structure makes it instrumental in the preparation of anisomycin analogues, compounds of interest for their biological activities. Furthermore, this chemical serves as an activator for crucial cellular signaling pathways, including JNK/SAPK1 and p38/SAPK2, positioning it as a vital tool for researchers in drug discovery and development. Our commitment as a reliable manufacturer ensures consistent purity and availability for your critical projects.
- This oxazolidinone derivative is essential for the prepare anisomycin analogues, offering new avenues for therapeutic development in our ongoing research.
- It plays a key role in drug discovery by serving as an activator for the JNK/SAPK1 pathway, a critical target in various cellular processes.
- Researchers utilize this compound to activate p38 SAPK2 pathways, providing insights into cellular stress responses and disease mechanisms.
- The high purity of our pharmaceutical intermediate synthesis ensures reliable and reproducible results in your laboratory experiments.
Key Advantages
Versatile Application in Synthesis
Leverage the capabilities of this oxazolidinone derivative to explore new frontiers in chemical synthesis, particularly in preparing anisomycin analogues for advanced research.
Targeted Pathway Modulation
Effectively activate JNK/SAPK1 and p38/SAPK2 pathways to investigate cellular signaling and identify potential therapeutic targets in your research endeavors.
Guaranteed Quality and Purity
Benefit from our stringent quality control, ensuring a high purity of 95%min for reliable pharmaceutical intermediate synthesis and consistent experimental outcomes.
Key Applications
Pharmaceutical Synthesis
Utilize this compound in sophisticated synthetic routes for novel drug candidates, specifically targeting the preparation of anisomycin analogues.
Cellular Signaling Research
Investigate cellular mechanisms by activating key pathways such as JNK/SAPK1 and p38/SAPK2, crucial for understanding disease progression and cellular responses.
Drug Discovery & Development
Incorporate this high-purity intermediate into your drug discovery pipeline to accelerate the identification and development of new therapeutic agents.
Biochemical Pathway Analysis
Employ this chemical to precisely probe and understand the complex interplay of biological pathways, contributing to advancements in molecular biology.