2-Chloroadenosine: A Comprehensive Guide to its Properties, Applications, and Biological Activity
Discover the multifaceted nature of 2-Chloroadenosine, a key compound in neurological and pharmacological research.
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2-Chloroadenosine
2-Chloroadenosine is a valuable research chemical, recognized for its role as a metabolically stable analog of adenosine. It acts as a non-selective adenosine receptor agonist, impacting A1, A2A, and A3 receptors with specific Ki values. Its demonstrated in vivo anticonvulsive effects make it a compound of significant interest in neurological studies.
- Investigating the intricate relationships of adenosine receptor agonist activity is crucial for understanding various physiological processes.
- Leveraging 2-Chloroadenosine's unique properties can unlock new insights into neurological disorders.
- The CAS 146-77-0 designation ensures accurate identification and sourcing of this specialized biochemical.
- Understanding 2-Chloroadenosine solubility data is essential for preparing effective research solutions.
Key Advantages
Metabolic Stability
This compound offers enhanced metabolic stability compared to native adenosine, allowing for more reliable and prolonged experimental observations in biological systems, aiding research on adenosine receptor agonist effects.
Broad Receptor Affinity
As a non-selective agonist, it provides a broad tool for exploring the diverse functions of adenosine receptors, making it useful for preliminary screening and complex signaling pathway investigations.
Research Utility
Its well-documented biological activity, including anticonvulsive properties, positions it as a vital component for researchers focused on brain function and potential therapeutic targets.
Key Applications
Neuroscience Research
Studying the role of adenosine receptors in neuronal signaling and the potential development of anticonvulsant therapies is a primary application for this chemical.
Pharmacological Studies
Its function as an adenosine receptor agonist makes it an excellent candidate for in vitro and in vivo assays to understand drug mechanisms and receptor interactions.
Drug Discovery & Development
As a fine chemical, it serves as a crucial intermediate or reference compound in the screening and development of new pharmaceutical agents targeting adenosine pathways.
Biochemical Assays
Researchers utilize it in various biochemical assays to investigate enzyme kinetics, protein binding, and cellular responses mediated by adenosine signaling.