High Purity 4-Amino-3-phenylbutanoic Acid Hydrochloride: Properties, Synthesis, and Pharmaceutical Applications
Exploring the intricate chemistry and therapeutic potential of a crucial GABA-mimetic compound.
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4-Amino-3-phenylbutanoic Acid Hydrochloride
This high-purity compound is a derivative of gamma-aminobutyric acid (GABA), acting as a potent GABA-B receptor agonist. It is instrumental in the synthesis of various pharmaceuticals targeting the central nervous system, and is researched for its anxiolytic and nootropic effects. Its well-defined chemical structure and properties make it a vital building block in advanced chemical synthesis and drug discovery.
- Explore the 4-Amino-3-phenylbutanoic acid hydrochloride synthesis pathways, understanding its journey from raw materials to a refined chemical product.
- Discover its role as a key intermediate for pharmaceutical synthesis, enabling the creation of novel therapeutic agents.
- Learn about its GABA-B receptor modulation capabilities, crucial for its applications in neurological research.
- Understand the chemical properties of Phenibut hydrochloride that contribute to its stability and effectiveness in various applications.
Key Advantages
Exceptional Purity
Achieving over 98% purity, this compound ensures reliable and reproducible results in critical research and development phases, supporting accurate pharmaceutical chemical structure analysis.
Versatile Synthesis Intermediate
Serves as a crucial building block in complex organic synthesis, facilitating the development of novel compounds with tailored properties, making it vital for neurotransmitter system research compound creation.
Neurotransmitter Research Potential
Its GABA-mimetic activity makes it a valuable tool for studying neurotransmission and developing treatments for conditions like anxiety and sleep disorders, contributing to anxiety and sleep disorder treatment research.
Key Applications
Pharmaceutical Development
Utilized as a critical intermediate in the synthesis of anxiolytics and nootropics, aiding in the advancement of anxiolytic drug development.
Neuroscience Research
Employed in studies focusing on GABAergic systems and their role in cognition and mood, crucial for cognitive enhancement research.
Chemical Synthesis
A fundamental component in sophisticated organic synthesis, enabling the creation of complex molecules with specific pharmacological activities.
Biotechnology Exploration
Investigated for potential roles in plant regeneration and other biotechnological applications, showcasing its broad utility beyond human health.