Fmoc-(R)-3-Amino-4-(2-furyl)-butyric Acid: A Key Building Block in Peptide Synthesis and Drug Development
Discover the critical role of Fmoc-(R)-3-Amino-4-(2-furyl)-butyric acid, a high-purity chiral intermediate vital for advanced peptide synthesis and groundbreaking drug discovery initiatives.
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Fmoc-(R)-3-Amino-4-(2-furyl)-butyric acid
As a trusted supplier in China, we offer Fmoc-(R)-3-Amino-4-(2-furyl)-butyric acid, a highly pure and chiral amino acid derivative essential for modern peptide synthesis and drug development. Its unique structure, featuring a furan ring and Fmoc protection, makes it an ideal building block for creating complex peptide chains and exploring novel pharmaceutical candidates. This compound is instrumental in achieving high yields and purity in solid-phase peptide synthesis.
- Leverage our expertise in peptide synthesis applications for complex peptide chains.
- Incorporate this key intermediate into your drug discovery pipelines to develop novel therapeutics.
- Utilize chiral amino acid derivatives to explore new biological activities and pharmaceutical targets.
- Benefit from the efficiency offered by solid-phase peptide synthesis using high-quality building blocks.
Advantages Offered
Enhanced Synthesis Efficiency
This compound significantly enhances the efficiency of solid-phase peptide synthesis, enabling the rapid construction of complex peptide sequences.
Novel Therapeutic Potential
The unique furan ring moiety offers opportunities in drug development, allowing for the design of new pharmaceutical compounds with tailored biological activities.
High Purity and Chirality
With guaranteed high purity and specific chirality, this amino acid derivative ensures reproducible and reliable results in sensitive research applications.
Key Applications
Peptide Synthesis
A fundamental building block for creating intricate peptide sequences, crucial for research in molecular biology and biochemistry.
Drug Discovery
Its unique structure makes it a valuable component in the design of new pharmaceutical compounds and drug candidates targeting specific pathways.
Medicinal Chemistry
Essential for researchers exploring new molecular structures and their potential therapeutic applications, aiding in the medicinal chemistry process.
Organic Synthesis
Serves as a versatile intermediate in various organic synthesis pathways, contributing to the creation of complex organic molecules.