High-Purity D-Propargylglycine: A Key Building Block for Peptide Synthesis and Biochemical Research
Discover the versatility of D-Propargylglycine, essential for cutting-edge peptide synthesis and vital biochemical studies.
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D-Propargylglycine
D-Propargylglycine is a critical non-natural amino acid renowned for its multifaceted applications in advanced organic synthesis and life sciences research. Its primary utility lies in its function as a potent inhibitor of cystathionine gamma-lyase, an enzyme crucial for regulating hydrogen sulfide metabolism. This inhibitory action makes it an invaluable tool for researchers investigating neuroprotection and cardiovascular health, where hydrogen sulfide plays a significant signaling role. Furthermore, D-Propargylglycine serves as a versatile building block in medicinal chemistry, enabling the synthesis of novel compounds with potential therapeutic applications.
- Explore the benefits of D-Propargylglycine enzyme inhibitor in understanding neurological pathways.
- Utilize D-Propargylglycine for peptide synthesis to create complex biomolecules.
- Investigate D-Propargylglycine's role in cardiovascular research for potential therapeutic development.
- Source high-quality D-Propargylglycine supplier for your research needs.
Key Advantages
Enzyme Inhibition Activity
Leverage D-Propargylglycine's capability as an enzyme inhibitor to study metabolic pathways and cellular signaling, particularly its impact on hydrogen sulfide production.
Peptide Synthesis Versatility
Incorporate D-Propargylglycine into your solid-phase peptide synthesis (SPPS) workflows to create novel peptides with unique structural and functional properties.
Therapeutic Potential
Benefit from D-Propargylglycine's application in drug discovery, serving as a scaffold for developing new pharmaceuticals aimed at neurodegenerative and cardiovascular conditions.
Key Applications
Neuroprotection Research
Investigate the neuroprotective effects of D-Propargylglycine by studying its impact on the central nervous system and its role in combating neurodegenerative diseases.
Cardiovascular Studies
Utilize D-Propargylglycine in cardiovascular research to explore its modulation of hydrogen sulfide levels and its potential in managing conditions like hypertension.
Drug Development
Employ D-Propargylglycine as a crucial intermediate in the synthesis of novel drug candidates, contributing to advancements in medicinal chemistry.
Biochemical Assays
Use D-Propargylglycine in biochemical assays to precisely measure enzyme activity and understand sulfur-amino acid metabolism.