Adenosine (CAS 58-61-7): A Comprehensive Guide to its Properties, Applications, and Market Insights
Discover the fundamental role of Adenosine in biological systems and its growing importance in scientific research and pharmaceutical development.
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Adenosine
Adenosine, identified by CAS number 58-61-7, is a naturally occurring nucleoside that is essential for life. It serves as a fundamental building block for DNA and RNA, and critically, it is a key component of adenosine triphosphate (ATP), the primary energy currency of cells. Its involvement extends to crucial cellular processes including gene expression regulation, energy metabolism, and cell signaling. Researchers utilize Adenosine in various in vitro studies to investigate the impact of drugs on cells and tissues, making it an invaluable tool in understanding biological pathways and developing new therapeutic strategies.
- Unlock cellular energy: As a key component of ATP, Adenosine is vital for powering cellular functions, aiding in understanding energy metabolism pathways.
- Modulate cell signaling: Adenosine interacts with multiple receptors, influencing diverse cellular responses and providing insights for adenosine receptor modulators.
- Investigate apoptosis: Its role as an apoptosis inducer makes it critical for studies in apoptosis research tools and understanding cell death mechanisms.
- Source vital biochemicals: High-purity Adenosine is essential for accurate results in biochemicals for cell biology research, supporting groundbreaking scientific discoveries.
Key Advantages
Versatile Research Tool
Adenosine's multifaceted biological activity makes it an indispensable compound for a wide array of research applications, particularly in understanding cell biology research and drug efficacy.
Energy Metabolism Insight
By studying Adenosine and its role in ATP production, scientists gain critical insights into energy metabolism pathways, crucial for metabolic disorder research.
Therapeutic Potential
Its capacity to act as an apoptosis inducer and an adenosine receptor activator highlights its potential in developing novel therapeutic agents, a key area in pharmaceutical intermediates sourcing.
Key Applications
Biochemical Research
Used extensively in laboratories to study cellular respiration, signal transduction, and gene regulation, contributing to advancements in nucleoside chemistry and applications.
Pharmaceutical Development
Serves as a critical intermediate and research compound in the development of new drugs targeting cardiovascular diseases, neurological disorders, and inflammatory conditions.
Cellular Metabolism Studies
Essential for investigating metabolic pathways, energy balance within cells, and the effects of various compounds on cellular energy production.
Neuroscience Research
Investigated for its role in neurotransmission and its impact on neurological functions, providing avenues for understanding and treating neurological diseases.