Tamoxifen CAS 10540-29-1: A Comprehensive Overview of its Properties and Applications in Pharmaceutical Research
Exploring the chemical and biological significance of Tamoxifen for advanced research and development.
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Tamoxifen
Tamoxifen, identified by CAS number 10540-29-1, is a crucial compound in pharmaceutical research, renowned for its multifaceted biological activities. As a Selective Estrogen Response Modifier (SERM), it plays a vital role in modulating estrogen receptor pathways, making it invaluable for studies in endocrinology and oncology. Its ability to inhibit protein kinase C (PKC) and exhibit anti-angiogenetic properties further broadens its utility in understanding cellular growth and disease progression.
- Discover the Tamoxifen uses in cancer research, a key area where its SERM properties are leveraged to combat estrogen-dependent cancers.
- Understand the Tamoxifen protein kinase C inhibitor function, crucial for research into cellular signaling and proliferation pathways.
- Explore Tamoxifen's anti-angiogenetic properties, vital for investigations into tumor growth and metastasis.
- Learn about Tamoxifen's role as an estrogen receptor modulator, essential for understanding hormonal effects on various biological systems.
Key Advantages
Enhanced Research Capabilities
Leverage Tamoxifen's well-defined mechanisms, including its Tamoxifen uses in cancer research, to advance your scientific investigations with reliable data.
Versatile Therapeutic Potential
Investigate the Tamoxifen chemical properties that contribute to its status as a potent protein kinase C inhibitor and anti-angiogenetic factor for novel therapeutic avenues.
Reliable Sourcing
Access high-purity Tamoxifen for your Tamoxifen research applications, ensuring consistency and accuracy in experimental outcomes when you buy Tamoxifen online China.
Key Applications
Oncology Drug Discovery
Investigate Tamoxifen's efficacy in various cancer models, particularly its role in treating ER-positive breast cancer, to develop new treatment strategies.
Cellular Signaling Research
Study the Tamoxifen protein kinase C inhibitor mechanism to understand intricate cell communication pathways and their implications in disease.
Endocrinology Studies
Utilize Tamoxifen as an estrogen receptor modulator to explore hormonal influences on physiological processes and endocrine disorders.
Angiogenesis Inhibition Research
Explore the Tamoxifen anti-angiogenetic properties to find new ways to inhibit blood vessel formation, which is critical in tumor growth and other conditions.