The Chemistry of Tacrine (CAS 321-64-2): Structure, Synthesis, and Research Use
Tacrine, designated by CAS number 321-64-2, is a synthetic organic molecule with significant implications in medicinal chemistry and neuroscience. This article delves into the chemistry of Tacrine, exploring its structural features, synthesis, and its ongoing utility in research settings.
The molecular formula of Tacrine is C13H14N2. Structurally, it is characterized by a tetrahydroacridine core, a tricyclic system that imparts specific chemical and pharmacological properties. The compound typically presents as a white to light yellow crystalline powder. Its primary mode of action, as a potent cholinesterase inhibitor, is directly linked to its molecular structure, which allows it to bind effectively to the active site of acetylcholinesterase enzymes.
The synthesis of Tacrine generally involves multi-step organic chemistry processes. While specific proprietary synthesis routes may vary among manufacturers, common approaches involve the construction of the acridine ring system followed by the introduction of the amine group and subsequent reduction or cyclization steps. Understanding these synthesis pathways is crucial for quality control and for identifying potential impurities.
For researchers, Tacrine serves as a valuable tool. Its well-documented inhibitory activity makes it a standard for comparison in studies involving new acetylcholinesterase inhibitor Tacrine candidates or for investigating the role of acetylcholine in various biological processes. If you are looking to buy Tacrine CAS 321-64-2, partnering with experienced tacrine manufacturers in China ensures access to high-purity material. Exploring the competitive tacrine price FOB China offered by these manufacturers can facilitate cost-effective research planning.
In summary, the chemistry of Tacrine is central to its historical significance and its continued relevance in research. As a key compound from a reliable tacrine manufacturer in China, it provides a vital chemical resource for advancing our understanding of neurobiology and drug development.
The molecular formula of Tacrine is C13H14N2. Structurally, it is characterized by a tetrahydroacridine core, a tricyclic system that imparts specific chemical and pharmacological properties. The compound typically presents as a white to light yellow crystalline powder. Its primary mode of action, as a potent cholinesterase inhibitor, is directly linked to its molecular structure, which allows it to bind effectively to the active site of acetylcholinesterase enzymes.
The synthesis of Tacrine generally involves multi-step organic chemistry processes. While specific proprietary synthesis routes may vary among manufacturers, common approaches involve the construction of the acridine ring system followed by the introduction of the amine group and subsequent reduction or cyclization steps. Understanding these synthesis pathways is crucial for quality control and for identifying potential impurities.
For researchers, Tacrine serves as a valuable tool. Its well-documented inhibitory activity makes it a standard for comparison in studies involving new acetylcholinesterase inhibitor Tacrine candidates or for investigating the role of acetylcholine in various biological processes. If you are looking to buy Tacrine CAS 321-64-2, partnering with experienced tacrine manufacturers in China ensures access to high-purity material. Exploring the competitive tacrine price FOB China offered by these manufacturers can facilitate cost-effective research planning.
In summary, the chemistry of Tacrine is central to its historical significance and its continued relevance in research. As a key compound from a reliable tacrine manufacturer in China, it provides a vital chemical resource for advancing our understanding of neurobiology and drug development.
Perspectives & Insights
Future Origin 2025
“Exploring the competitive tacrine price FOB China offered by these manufacturers can facilitate cost-effective research planning.”
Core Analyst 01
“In summary, the chemistry of Tacrine is central to its historical significance and its continued relevance in research.”
Silicon Seeker One
“As a key compound from a reliable tacrine manufacturer in China, it provides a vital chemical resource for advancing our understanding of neurobiology and drug development.”