Unlock Pharmaceutical Innovation with 4-Pyrimidinamine, 5-(Bromomethyl)-2-methyl-, Monohydrobromide
A critical intermediate for cutting-edge drug discovery and synthesis. Explore its applications.
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4-Pyrimidinamine, 5-(Bromomethyl)-2-methyl-, Monohydrobromide
This compound is a vital organic intermediate, serving as a fundamental building block in the intricate process of pharmaceutical synthesis. Its unique chemical structure makes it indispensable for creating advanced therapeutic agents and complex organic molecules. As a key component in drug discovery, it enables researchers to synthesize novel compounds with specific biological activities.
- Leverage this essential chemical building block for your pharmaceutical intermediate synthesis needs.
- Explore the potential of pyrimidine derivatives in pharmaceuticals with this versatile compound.
- Discover new therapeutic agents by utilizing this compound in organic synthesis.
- Source this critical intermediate to advance your drug discovery projects.
Advantages Offered
Enhanced Synthesis Pathways
Utilize the 4-Pyrimidinamine, 5-(Bromomethyl)-2-methyl-, Monohydrobromide CAS 2908-71-6 supplier network to ensure a reliable supply for complex organic synthesis. This enhances your production efficiency.
Accelerated Drug Discovery
As a key component in drug discovery, its availability facilitates faster research and development cycles, allowing for quicker identification of promising new drug candidates.
Functional Group Versatility
The bromomethyl group offers reactive sites, making it a versatile tool for introducing various functionalities into target molecules, crucial for creating specific GRK inhibitor compounds.
Key Applications
Pharmaceutical Intermediate Manufacturing
This compound is a cornerstone for the production of various pharmaceutical intermediates, enabling the synthesis of active pharmaceutical ingredients (APIs).
Drug Discovery and Development
Its unique structure is instrumental in creating novel drug candidates, particularly those targeting specific biological pathways like G protein-coupled receptor kinase (GRK) inhibition.
Advanced Organic Synthesis
Researchers leverage this compound in complex organic synthesis for creating specialized molecules with diverse applications beyond pharmaceuticals.
Chemical Research
As a well-defined chemical entity, it serves as a valuable reagent in academic and industrial chemical research laboratories.