Ethyl 2-Oximinooxamate: Revolutionizing Peptide Synthesis and Beyond
Discover the key role of this versatile compound in advancing chemical synthesis and drug discovery.
Get a Quote & SampleProduct Core Value
Ethyl 2-Oximinooxamate
This white crystalline compound is a pivotal reagent in modern organic chemistry, particularly recognized for its role as an exceptional additive in peptide synthesis. It significantly suppresses racemization and enhances coupling efficiency, offering a safer and more effective alternative to historical reagents.
- Leveraging OxymaPure as an additive in peptide synthesis offers superior suppression of racemization, ensuring higher purity of the synthesized peptides.
- The OxymaPure coupling reagent facilitates efficient amide bond formation, crucial for complex molecule synthesis in medicinal chemistry.
- Exploring the synthesis of metalloprotease inhibitors using Ethyl 2-oximinooxamate opens new avenues for treating inflammatory diseases and cancers.
- The antimicrobial activity of derivatives derived from this compound shows potential for developing novel agents against resistant bacterial and fungal strains.
Key Advantages
Enhanced Purity and Yield
Utilize this compound as an additive in peptide synthesis for markedly improved yields and significantly reduced racemization, contributing to purer final peptide products.
Broad Applicability in Synthesis
Serves as a vital intermediate for synthesizing various biologically active compounds, including potential metalloprotease inhibitors, showcasing its versatility in medicinal chemistry.
Improved Safety Profile
Offers a safer alternative to benzotriazole-based reagents, exhibiting a markedly slowed thermal decomposition, thereby minimizing explosion risks in laboratory settings.
Key Applications
Peptide Synthesis
As a crucial additive, it enhances the efficiency and purity of peptide synthesis, vital for drug development and biochemical research.
Medicinal Chemistry
Acts as a key intermediate in the development of therapeutic agents, such as inhibitors for metalloproteases implicated in cancer and inflammation.
Antimicrobial Research
Its derivatives demonstrate significant antimicrobial properties, offering a potential source for new treatments against bacterial and fungal infections.
Organic Synthesis Intermediate
Used as a versatile building block for creating complex organic molecules and heterocyclic compounds with desirable chemical properties.