N-Boc-N'-nitro-L-arginine: A Key Intermediate for Pharmaceutical Synthesis and Research
Unlock advanced biochemical and pharmaceutical applications with our high-purity N-Boc-N'-nitro-L-arginine.
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N-Boc-N'-nitro-L-arginine
N-Boc-N'-nitro-L-arginine, identified by CAS number 2188-18-3, stands as a vital intermediate in the realm of chiral organic synthesis. Its primary utility lies in its role as a building block for complex molecules within pharmaceutical development and biochemical research, enabling intricate reaction pathways.
- Facilitating complex organic synthesis: This compound serves as a key intermediate, supporting the creation of advanced chemical structures essential for novel drug candidates and biochemical probes, as explored in pharmaceutical exploration chemical research.
- Enzyme inhibition studies: Its capacity to inhibit Nitric Oxide Synthase (NOS) enzymes makes it invaluable for unraveling the complex roles of nitric oxide in physiological and pathological processes.
- Drug development support: N-Boc-N'-nitro-L-arginine is utilized in screening potential drug candidates targeting NOS pathways, aiding in the development of therapeutics for conditions modulated by NO signaling.
- High purity and reliability: Supplied with guaranteed purity, it ensures consistent and reproducible results in demanding research and synthesis applications.
Key Advantages
Enhanced Synthetic Precision
Leverage the precise chemical structure of N-Boc-N'-nitro-L-arginine to achieve higher yields and purity in your peptide synthesis and other complex organic synthesis projects.
Advanced Biochemical Research Tool
As a potent NOS inhibitor, this chemical is indispensable for researchers delving into signal transduction pathways and physiological functions related to nitric oxide.
Streamlined Pharmaceutical Exploration
Its established role in drug development makes it a reliable choice for pharmaceutical companies exploring novel therapeutic agents, contributing to advancements in the field of drug development support.
Key Applications
Pharmaceutical Synthesis
Used as a critical intermediate in the synthesis of various pharmaceutical compounds, aiding in the development of new therapeutic agents.
Biochemical Research
Essential for in-depth studies on enzyme mechanisms, cellular signaling, and biological pathways, particularly those involving nitric oxide.
Enzyme Inhibition Studies
Acts as a key chemical for investigating the function and regulation of enzymes like Nitric Oxide Synthase (NOS).
Drug Development
Supports the screening and development process for novel drugs targeting specific biological pathways, contributing to the broader field of pharmaceutical exploration.