Understanding 2'-Deoxycytidine: A Key Deoxyribonucleoside for Cellular Modulation and Cancer Research
Explore the multifaceted role of 2'-deoxycytidine as an Eg5 kinesin modulator, its antiproliferative effects, and its critical applications in cancer research and therapy, offering new avenues for treatment.
Get a Quote & SampleProduct Core Value
2'-Deoxycytidine
As a leading supplier in China, we offer high-purity 2'-deoxycytidine, a vital deoxyribonucleoside recognized for its significant antiproliferative and apoptosis-inducing activity. It functions as an Eg5 kinesin modulator, making it a crucial compound in understanding and developing novel cancer treatments. Our commitment to quality ensures reliable products for advanced pharmaceutical research and development.
- Antiproliferative Activity: Leverages its role as an Eg5 kinesin modulator to inhibit cancer cell proliferation, a key aspect in developing effective cancer therapy.
- Apoptosis Induction: Effectively triggers programmed cell death in cancer cells, a critical mechanism for tumor regression and a focus for cancer treatment strategies.
- Gene Expression Modulation: Influences the expression of key genes such as hTERT and p16, impacting telomerase activity and cellular pathways crucial for cancer development.
- Enhanced Chemosensitivity: Demonstrates potential to increase the sensitivity of cancer cells to existing chemotherapeutic agents, offering synergistic therapeutic benefits.
Advantages of Using 2'-Deoxycytidine
Targeted Cancer Therapy Development
Facilitates the exploration of targeted cancer therapy by modulating key cellular pathways and providing a foundation for innovative treatment strategies.
Understanding Cancer Mechanisms
Aids in unraveling complex cancer mechanisms by influencing gene expression and telomerase activity, vital for comprehensive cancer research.
Synergistic Treatment Potential
Offers potential for synergistic effects when combined with existing chemotherapies, enhancing treatment efficacy and patient outcomes.
Key Applications
Anticancer Drug Research
Used extensively in preclinical studies to develop new anticancer drugs by targeting cell proliferation and apoptosis pathways, contributing to the fight against cancer.
Molecular Biology Research
Serves as a tool to study the intricate molecular mechanisms underlying cell cycle regulation and gene expression, offering insights into cellular processes.
Epigenetic Studies
Plays a role in epigenetic research by influencing DNA methylation and gene reactivation, critical for understanding cancer development and treatment.
Pharmaceutical Development
A key component in the development of pharmaceutical compounds aimed at treating various cancers, leveraging its unique biological activities.