Understanding Tacrine (CAS 321-64-2): Chemical Properties and Research Applications
Tacrine, known scientifically by its CAS number 321-64-2, is a synthetic chemical compound with a distinct molecular structure (C13H14N2). It gained prominence as a pharmaceutical agent, primarily for its role as a cholinesterase inhibitor. This article aims to provide a comprehensive overview of its chemical characteristics and its utility in various research fields.
Chemically, Tacrine is an acridine derivative. Its physical form is typically described as a white to light yellow crystalline powder. The compound's ability to inhibit acetylcholinesterase, an enzyme responsible for breaking down the neurotransmitter acetylcholine, was the basis for its therapeutic application in Alzheimer's disease. By increasing acetylcholine levels, it was intended to enhance cognitive function. However, due to concerns about liver toxicity and other side effects, its use in clinical practice has significantly declined.
Despite its reduced clinical use, Tacrine remains a valuable compound for researchers. Its well-defined mechanism of action makes it an important tool in neuroscience for studying cholinergic systems and the pathology of cognitive impairments. For scientists and organizations looking to buy Tacrine CAS 321-64-2, understanding its properties and sourcing it from reliable tacrine manufacturers in China is crucial. The availability and tacrine price FOB China are key factors to consider when planning research experiments or synthesis projects.
The field of drug discovery continuously seeks to build upon the knowledge gained from earlier compounds. Studying acetylcholinesterase inhibitor Tacrine provides valuable insights into structure-activity relationships and the challenges of developing safe and effective treatments for neurological conditions. If you require Tacrine for your research, engaging with a reputable tacrine manufacturer in China ensures you receive a product that meets necessary purity standards. Exploring the global market for the tacrine price FOB China can help optimize procurement for your laboratory.
Chemically, Tacrine is an acridine derivative. Its physical form is typically described as a white to light yellow crystalline powder. The compound's ability to inhibit acetylcholinesterase, an enzyme responsible for breaking down the neurotransmitter acetylcholine, was the basis for its therapeutic application in Alzheimer's disease. By increasing acetylcholine levels, it was intended to enhance cognitive function. However, due to concerns about liver toxicity and other side effects, its use in clinical practice has significantly declined.
Despite its reduced clinical use, Tacrine remains a valuable compound for researchers. Its well-defined mechanism of action makes it an important tool in neuroscience for studying cholinergic systems and the pathology of cognitive impairments. For scientists and organizations looking to buy Tacrine CAS 321-64-2, understanding its properties and sourcing it from reliable tacrine manufacturers in China is crucial. The availability and tacrine price FOB China are key factors to consider when planning research experiments or synthesis projects.
The field of drug discovery continuously seeks to build upon the knowledge gained from earlier compounds. Studying acetylcholinesterase inhibitor Tacrine provides valuable insights into structure-activity relationships and the challenges of developing safe and effective treatments for neurological conditions. If you require Tacrine for your research, engaging with a reputable tacrine manufacturer in China ensures you receive a product that meets necessary purity standards. Exploring the global market for the tacrine price FOB China can help optimize procurement for your laboratory.
Perspectives & Insights
Molecule Vision 7
“It gained prominence as a pharmaceutical agent, primarily for its role as a cholinesterase inhibitor.”
Alpha Origin 24
“This article aims to provide a comprehensive overview of its chemical characteristics and its utility in various research fields.”
Future Analyst X
“Its physical form is typically described as a white to light yellow crystalline powder.”