D-Alanine (H-D-Ala-OH): A Fundamental Building Block for Peptide Synthesis and Research
Explore the essential properties and applications of D-Alanine, a crucial chiral amino acid for biochemical and pharmaceutical innovation.
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D-Alanine
D-Alanine, identified by its CAS number 338-69-2, is a vital chiral amino acid, specifically the D-enantiomer of alanine. Its significance lies in its role as a fundamental building block in the synthesis of peptides and its utility in various biochemical research applications. Its crystalline white form and specific chemical properties make it a sought-after reagent in the fine chemical industry.
- Understanding the critical D-alanine synthesis pathways is key for pharmaceutical development.
- The unique H-D-Ala-OH properties enable precise control in complex organic syntheses.
- Sourcing reliable D-alanine price information is essential for cost-effective research and production.
- To buy D-alanine online from trusted suppliers ensures product quality and consistency for your projects.
Key Advantages of D-Alanine
Chiral Purity
As a pure D-enantiomer, it offers distinct stereochemical properties crucial for targeted biological interactions and asymmetric synthesis. D-alanine chemical supplier networks ensure access to high-purity material.
Peptide Synthesis Versatility
Its incorporation into peptides, including those mimicking natural structures or designed for specific therapeutic effects, makes it indispensable for advancing peptide-based therapeutics. Researching D-alanine peptide synthesis methods is an active area.
Research Applications
Widely used in biochemical studies, drug discovery, and the development of novel materials, leveraging its specific chemical characteristics. Knowing the correct D-alanine CAS 338-69-2 is vital for accurate identification.
Key Applications
Pharmaceutical Research
Utilized in the development of new drug candidates and the study of biological pathways, often involving (R)-2-aminopropionic acid interactions.
Peptide Therapeutics
Essential for creating peptides with specific biological activities, contributing to the growing field of peptide-based medicines.
Organic Synthesis
Serves as a chiral building block in asymmetric synthesis, enabling the creation of complex stereochemically defined molecules.
Biochemical Studies
Investigating enzyme mechanisms, protein structures, and metabolic pathways benefits from the availability of high-quality D-Alanine.