4-Amino-5-imidazolecarboxamide: A Cornerstone in Temozolomide Synthesis
Discover the vital role of this imidazole derivative in producing life-saving cancer therapies.
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4-Amino-5-imidazolecarboxamide
This imidazole derivative is a critical building block, most notably as an intermediate in the synthesis of Temozolomide, a powerful chemotherapeutic agent used in treating aggressive brain tumors like glioblastoma multiforme. Its well-defined physical and chemical characteristics, coupled with high purity, make it indispensable for consistent and effective drug manufacturing.
- Explore the crucial role of 4-Amino-5-imidazolecarboxamide in pharmaceutical synthesis, particularly its contribution to Temozolomide production for treating aggressive cancers.
- Understand the importance of high purity essential for pharmaceutical applications, ensuring the efficacy and safety of downstream drug products.
- Learn about the compound's stability, stemming from its low vapor pressure and high boiling point, making it a reliable component in chemical processes.
- Discover its versatility in various chemical synthesis pathways and its potential use in other purine-related molecular developments.
Key Advantages
Reliable Synthesis Intermediate
Leverage the consistent quality of 4-Amino-5-imidazolecarboxamide as a dependable chemical intermediate for cancer drugs, ensuring reproducible results in pharmaceutical manufacturing.
High Purity Assurance
Benefit from assay levels typically ≥99.0%, with strict controls on single (≤0.3%) and total impurities (≤0.5%), vital for sensitive pharmaceutical synthesis.
Chemical Stability
Utilize a compound with a low vapor pressure (0.0±1.5 mmHg at 25°C) and a high boiling point (535.4±60.0 °C), ensuring its integrity throughout various processing conditions.
Key Applications
Temozolomide Synthesis
As a critical Temozolomide intermediate supplier, this compound is fundamental in creating a key drug for brain tumor treatment, underscoring its direct impact on patient care.
Purine Analog Development
The inherent imidazole structure makes it a valuable starting material for researchers exploring nucleotide analogs and other purine-related molecules in advanced medicinal chemistry.
Biochemical Research Tool
In laboratory settings, it functions as a useful reagent in biochemical assays, aiding studies on enzyme activity and metabolic pathways, contributing to a deeper understanding of biological processes.
Medicinal Chemistry Building Block
Its well-defined properties and versatile reactivity make it a sought-after component for medicinal chemists working on novel therapeutic agents, expanding the scope of drug discovery.