N-Boc-N'-Cbz-L-lysine (CAS 2389-45-9): A Vital Component in Advanced Chemical Synthesis
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N-Boc-N'-Cbz-L-lysine
N-Boc-N'-Cbz-L-lysine (CAS 2389-45-9) is a critical protected amino acid essential for complex organic synthesis, particularly in the field of peptide chemistry. Its molecular structure, C19H28N2O6, and molecular weight of 380.43 make it a reliable building block. This compound plays a vital role as an intermediate in the synthesis of Isodesmosine Chloride, a key component of elastin, underscoring its importance in biochemical research and material science applications.
- Discover the advantages of using high-purity protected amino acids for research, ensuring reliable and reproducible results in your experiments.
- Explore the intricate N-Boc-N'-Cbz-L-lysine synthesis pathways that lead to this essential chemical intermediate.
- Understand the N-Boc-N'-Cbz-L-lysine applications in creating complex biomolecules and novel materials.
- Learn about the importance of CAS 2389-45-9 as a standard identifier for this vital research chemical.
Key Advantages Offered
Purity and Reliability
Achieve exceptional outcomes with N-Boc-N'-Cbz-L-lysine, known for its high purity, often exceeding 99%, which is crucial for sensitive peptide synthesis protocols.
Versatile Intermediate
Leverage this compound's utility as a versatile intermediate in organic synthesis, enabling the creation of a wide array of complex molecular structures.
Biochemical Significance
Contribute to advancements in biochemical research by utilizing a compound vital for the production of specific biomolecules like Isodesmosine Chloride.
Key Applications
Peptide Synthesis
As a protected amino acid derivative, it is indispensable in solid-phase and solution-phase peptide synthesis, allowing for controlled chain elongation.
Pharmaceutical Research
Serves as a key building block in the development of new pharmaceutical agents and in the synthesis of therapeutic peptides.
Biomaterial Development
Essential for the synthesis of specific components like Isodesmosine Chloride, contributing to the study and development of biomaterials such as elastin.
Organic Chemistry Studies
Its well-defined structure and reactivity make it a valuable tool for academic and industrial research in advanced organic synthesis.