(R)-1-(2-(2,5-dichlorobenzamido)acetamido)-3-methylbutylboronic acid: A Key Proteasome Inhibitor for Research
Discover the intricate details of a vital compound in cancer research. Explore its chemical properties, applications, and significance as a proteasome inhibitor in advancing oncological studies.
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(R)-1-(2-(2,5-dichlorobenzamido)acetamido)-3-methylbutylboronic acid
As a leading supplier in China, we provide high-quality (R)-1-(2-(2,5-dichlorobenzamido)acetamido)-3-methylbutylboronic acid, also known as Ixazomib or MLN2238. This potent proteasome inhibitor is critical for researchers exploring novel anticancer agents and understanding mechanisms in diseases like multiple myeloma. Our commitment as a manufacturer in China ensures consistent purity and reliable supply for your demanding research needs, supporting your work in developing innovative cancer therapy development.
- Ixazomib MLN2238 proteasome inhibitor: Delve into the advanced research applications of this compound, understanding its role in various cancer studies.
- Anticancer agent research: Explore how this molecule contributes to the development of new treatments and enhances our understanding of cancer cell behavior.
- Multiple myeloma treatment molecule: Learn about its significance in preclinical and clinical studies targeting multiple myeloma and related hematological malignancies.
- Active metabolite ixazomib citrate: Understand its role as a biologically active form, crucial for studying drug efficacy and pharmacodynamics in research settings.
Advantages Offered
Potent Proteasome Inhibition
This compound demonstrates potent proteasome inhibition, a key mechanism for its anticancer activity, making it invaluable for research into proteasome-related diseases and therapies.
Advancement in Oncology Research
Its application as an anticancer agent research tool aids in uncovering new therapeutic strategies and understanding the complex pathways involved in cancer progression.
Reliable Pharmaceutical Synthesis
We ensure high purity and consistent quality, supporting your pharmaceutical synthesis needs for research-grade compounds like this boronic acid derivative.
Key Applications
Oncology Research
Essential for in-depth studies on cancer cell mechanisms and drug efficacy, supporting advancements in the fight against various cancers.
Cancer Therapy Development
Contributes to the development of novel therapeutic approaches, aiding in the discovery of more effective treatments for challenging cancers.
Pharmaceutical Synthesis
Serves as a critical building block or intermediate in the synthesis of complex pharmaceutical compounds for drug discovery.
Biochemical Research
Utilized in biochemical assays to understand enzyme activity, protein degradation pathways, and cellular signaling in research environments.