6-O-Benzylguanine (CAS 19916-73-5): A Key Pharmaceutical Intermediate for DNA Repair Inhibition
Explore the critical role of 6-O-Benzylguanine in interrupting DNA repair and its applications in oncology.
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6-O-Benzylguanine
As a crucial pharmaceutical intermediate, 6-O-Benzylguanine serves as a synthetic derivative of guanine with significant biological activity.
- This O6-Benzylguanine DNA repair inhibitor functions as a suicide inhibitor of the O6-alkylguanine-DNA alkyltransferase enzyme, effectively halting DNA repair processes.
- Users looking to buy 6-O-Benzylguanine can leverage its unique properties for advanced cancer research, particularly in understanding cellular mechanisms.
- The compound, a guanine derivative antineoplastic agent, has been investigated for its potential in combination therapies, aiming to enhance treatment efficacy.
- Understanding the mechanism of this 6-O-Benzylguanine DNA repair inhibitor is vital for developing next-generation cancer therapies.
Advantages Offered by the Product
Precise DNA Repair Intervention
This pharmaceutical intermediate, 6-O-Benzylguanine CAS 19916-73-5, offers a specific mechanism to inhibit DNA repair enzymes, crucial for certain therapeutic strategies.
Research and Development Focus
Its role as a guanine derivative antineoplastic agent makes it a valuable tool for researchers exploring new anticancer drug development pathways.
Established Chemical Identity
With a well-defined CAS number and molecular structure, this O6-Benzylguanine DNA repair inhibitor provides reliability in experimental and developmental settings.
Key Applications
Oncology Research
The ability to interrupt DNA repair mechanisms makes 6-O-Benzylguanine a subject of interest in developing novel cancer treatments and understanding drug resistance.
Drug Discovery
As a pharmaceutical intermediate, it aids in the synthesis and testing of new therapeutic agents targeting cellular repair pathways.
Biochemical Studies
Researchers utilize this O6-Benzylguanine DNA repair inhibitor to investigate enzyme kinetics and mechanisms related to DNA damage and repair.
Synthetic Chemistry
Its structure makes it a useful building block in the synthesis of more complex molecules with potential pharmacological activity.