10-(Cyclopropylcarbonyl)-3'-dephenyl-3'-(2-methyl-2-propenyl)docetaxel
95%
- Product Code: 85634
CAS:
178250-23-2
| Molecular Weight: | 853.96 g./mol | Molecular Formula: | C₄₅H₅₉NO₁₅ |
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| Density: | Storage Condition: | 2-8°C, sealed, dry |
Product Description:
This compound is primarily utilized in the field of cancer research and therapy, particularly in the development of advanced chemotherapeutic agents. It functions as a potent inhibitor of microtubule dynamics, which is crucial for cell division. By disrupting microtubule formation, it effectively halts the proliferation of cancer cells, making it a valuable candidate for treating various types of cancers, including breast, ovarian, and lung cancers.
In clinical settings, it is often explored as a part of combination therapies to enhance the efficacy of existing treatments. Its unique structural modifications contribute to improved solubility and reduced resistance mechanisms, which are common challenges in cancer treatment. Additionally, ongoing studies are investigating its potential in overcoming multidrug resistance, a significant barrier in chemotherapy.
Researchers are also examining its application in targeted drug delivery systems, aiming to minimize off-target effects and reduce systemic toxicity. This approach could lead to more precise and effective cancer treatments with fewer adverse side effects for patients.
Sizes / Availability / Pricing:
| Size (g) | Availability | Price | Quantity |
|---|---|---|---|
| 0.005 | 10-20 days | $1,084.88 |
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10-(Cyclopropylcarbonyl)-3'-dephenyl-3'-(2-methyl-2-propenyl)docetaxel
This compound is primarily utilized in the field of cancer research and therapy, particularly in the development of advanced chemotherapeutic agents. It functions as a potent inhibitor of microtubule dynamics, which is crucial for cell division. By disrupting microtubule formation, it effectively halts the proliferation of cancer cells, making it a valuable candidate for treating various types of cancers, including breast, ovarian, and lung cancers.
In clinical settings, it is often explored as a part of combination therapies to enhance the efficacy of existing treatments. Its unique structural modifications contribute to improved solubility and reduced resistance mechanisms, which are common challenges in cancer treatment. Additionally, ongoing studies are investigating its potential in overcoming multidrug resistance, a significant barrier in chemotherapy.
Researchers are also examining its application in targeted drug delivery systems, aiming to minimize off-target effects and reduce systemic toxicity. This approach could lead to more precise and effective cancer treatments with fewer adverse side effects for patients.
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