N-[2-(Boc-amino)ethyl]glycine Ethyl Ester: Your Key to Advanced Peptide Synthesis
Unlock complex molecular structures with this versatile Boc-protected building block, essential for modern organic and medicinal chemistry.
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N-[2-(Boc-amino)ethyl]glycine ethyl ester
This high-purity chemical compound, known by CAS 72648-80-7, is an indispensable tool in the realm of peptide synthesis. Its structure, featuring a Boc-protected amine and an ethyl ester, grants it unique reactivity and handling properties, making it a cornerstone for chemists developing complex peptides and organic molecules.
- Leverage N-[2-(Boc-amino)ethyl]glycine ethyl ester CAS 72648-80-7 for robust peptide synthesis, ensuring efficient chain elongation and protection of sensitive amine groups.
- As a critical component among peptide synthesis building blocks, this ester facilitates the assembly of intricate peptide sequences with high fidelity.
- Its role as one of the key organic chemistry intermediates allows for precise functionalization and manipulation in multi-step synthetic routes.
- The inherent stability of the Boc protected amino acid ester form simplifies handling and storage, crucial for laboratory and industrial applications.
Advantages of Using This Compound
Enhanced Synthetic Control
The Boc protecting group on this compound offers excellent protection for the amine functionality, allowing for controlled and selective reactions in complex synthetic pathways, a key aspect of medicinal chemistry reagents.
Versatile Reactivity
With both a protected amine and an ethyl ester, this molecule is highly versatile, acting as a foundational element for creating a wide array of downstream products in organic synthesis.
High Purity Standards
Typically supplied at 98% GC purity, this compound meets stringent quality requirements, ensuring reliable results and reproducibility in your research and development endeavors.
Key Applications
Peptide Synthesis
As a premier building block for peptide synthesis, it enables the creation of custom peptides with specific sequences and functionalities, vital for drug discovery.
Organic Synthesis
Its utility extends across various organic synthesis reactions, serving as a crucial intermediate for assembling complex molecular architectures.
Medicinal Chemistry
In medicinal chemistry, it acts as a foundational component for developing novel therapeutic agents and small molecules, contributing to pharmaceutical innovation.
Drug Development
Its role in drug development is significant, providing a reliable starting material for synthesizing compounds with potential pharmacological activity.