High-Purity (S)-3-Amino-5-hexenoic Acid Hydrochloride for Advanced Synthesis and Research
A key chiral building block empowering innovation in chemistry and life sciences.
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(S)-3-Amino-5-hexenoic acid hydrochloride
This high-purity chiral amino acid derivative serves as a fundamental building block in sophisticated organic synthesis. Its unique structure, featuring both an amino group and a terminal alkene, makes it exceptionally versatile for constructing complex molecules used in pharmaceuticals, biochemical research, and peptide synthesis.
- Discover the versatility of chiral amino acid synthesis for your next project.
- Explore the diverse amino hexenoic acid hydrochloride applications in medicinal chemistry.
- Source reliable organic synthesis building blocks for your research and development.
- Find high-quality fine chemical intermediates supply for demanding applications.
Advantages Provided by the Product
Stereochemical Purity
Ensures precise stereochemistry in synthesized compounds, critical for biological activity and drug efficacy, supporting your goals in chiral amino acid synthesis.
Synthetic Versatility
The presence of an amino group and an alkene functionality allows for a wide range of chemical transformations, facilitating complex molecule construction and supporting your exploration of amino hexenoic acid hydrochloride applications.
Research & Development Enablement
An essential reagent for academic and industrial research, enabling advancements in areas like custom peptide synthesis reagents and new drug discovery.
Key Applications
Pharmaceutical Synthesis
Used as a key intermediate in the synthesis of active pharmaceutical ingredients (APIs), contributing to the development of new therapeutic agents, leveraging its role in fine chemical intermediates supply.
Peptide Chemistry
Incorporated into peptides to introduce specific structural features or functionalities, vital for research in peptide synthesis building blocks and drug delivery systems.
Biochemical Research
Applied in studies of enzyme mechanisms, protein labeling, and as a molecular probe in various biological investigations, underscoring its value in biochemical reagents for research.
Material Science
Explored for its potential in creating novel polymers and advanced materials due to its reactive functional groups, aligning with custom organic synthesis services.