Tacrine (CAS 321-64-2): A Deep Dive into its Chemical Profile and Historical Significance
Explore the chemical properties, therapeutic applications, and market insights of Tacrine, a key compound in the history of Alzheimer's treatment and a focus for neuroscience research.
Get a Quote & SampleUnveiling the Core Value of Tacrine
Tacrine
Tacrine, identified by CAS number 321-64-2, is a synthetic compound that historically played a pivotal role as one of the first approved cholinesterase inhibitors for treating Alzheimer's disease. As a reliable supplier in China, we offer this chemical intermediate for research and development purposes. Its mechanism involves increasing acetylcholine levels in the brain, aiming to improve cognitive functions. Understanding the precise chemical properties and handling of such compounds is crucial for effective research, and we provide detailed information as a trusted manufacturer in China.
- Researching acetylcholinesterase inhibitor tacrine effects requires high-purity compounds. We ensure our Tacrine meets stringent quality standards.
- The historical significance of buy tacrine CAS 321-64-2 for Alzheimer's disease research is undeniable. Explore its past therapeutic impact.
- As a tacrine manufacturer in China, we focus on delivering consistent quality for your research needs.
- Investigating the tacrine price FOB China can inform your procurement strategy for essential research chemicals.
Key Advantages and Applications
Historical Therapeutic Efficacy
Tacrine was a pioneering treatment for Alzheimer's, demonstrating the potential of cholinesterase inhibitors to manage cognitive decline and supporting the development of future therapeutics in this field.
Neuroscience Research Tool
As a well-characterized acetylcholinesterase inhibitor, Tacrine is valuable for studying cholinergic pathways and the neurobiology of cognitive disorders.
Chemical Intermediate Properties
Its defined chemical structure and known properties make it a useful building block or reference standard in various chemical synthesis pathways, especially within pharmaceutical research.
Key Applications
Alzheimer's Disease Research
Studying the mechanisms and historical treatment approaches for Alzheimer's disease often involves examining compounds like Tacrine, making it a key focus in understanding neurodegenerative disease progression.
Neuroscience
As a cholinergic agonist, Tacrine is employed in neuroscience research to understand the role of acetylcholine in brain function, learning, and memory.
Pharmacological Studies
The compound serves as a reference for developing and testing new cholinesterase inhibitors, exploring structure-activity relationships, and evaluating drug safety profiles.
Chemical Synthesis
Tacrine can be utilized as a chemical intermediate or reference compound in the synthesis of novel pharmaceutical agents or complex organic molecules.