The field of peptide therapeutics and research is rapidly expanding, driven by advancements in synthesis technologies. Central to these advancements is the availability of precisely engineered amino acid derivatives. N-alpha-FMOC-Nepsilon-BOC-L-Lysine (CAS 71989-26-9) exemplifies such an innovation, providing researchers and manufacturers with a highly functional and versatile building block. Understanding its chemical properties is key to leveraging its full potential.

Chemical Structure and Orthogonal Protection

N-alpha-FMOC-Nepsilon-BOC-L-Lysine is a derivative of the naturally occurring amino acid L-lysine. Its structure is characterized by the presence of two critical protecting groups:

  • FMOC Group (N-alpha): Attached to the alpha-amino group, the FMOC moiety is a carbamate-based protecting group. Its defining feature is its lability to mild bases, such as piperidine. This property is fundamental to the Fmoc/tBu strategy in solid-phase peptide synthesis (SPPS), allowing for sequential coupling of amino acids without damaging the growing peptide chain or other protecting groups.
  • BOC Group (N-epsilon): Protecting the epsilon-amino group on the lysine side chain, the BOC group is a tert-butyloxycarbonyl moiety. This group is stable under basic conditions but readily cleaved by strong acids, particularly trifluoroacetic acid (TFA). Its acid lability is orthogonal to the base lability of the FMOC group, meaning one can be removed without affecting the other.

This orthogonal protection strategy is what makes N-alpha-FMOC-Nepsilon-BOC-L-Lysine so valuable. It ensures that during the iterative cycles of FMOC deprotection and amino acid coupling, the side chain of lysine remains intact and ready for subsequent reactions or final deprotection. When you purchase this product from a reliable manufacturer, you're acquiring a precisely engineered molecule for optimal synthetic outcomes.

Reactivity and Application in Synthesis

The controlled reactivity of N-alpha-FMOC-Nepsilon-BOC-L-Lysine is exploited in numerous synthetic schemes. In SPPS, after the FMOC group is removed, the exposed alpha-amino group is ready to react with the activated carboxyl group of the next incoming amino acid. Once the entire peptide sequence has been assembled, treatment with TFA cleaves the BOC group from the lysine side chain, alongside other acid-labile side-chain protecting groups and the linkage to the solid support resin. This dual protection strategy is a cornerstone of modern peptide chemistry, enabling the synthesis of complex and longer peptide sequences with high fidelity.

As a supplier, we understand that the purity and stability of this intermediate are paramount for successful synthesis. We encourage researchers and procurement specialists to buy N-alpha-FMOC-Nepsilon-BOC-L-Lysine from reputable sources that can guarantee these critical attributes. Our manufacturing processes are designed to deliver a consistent, high-quality product, ensuring that your peptide synthesis projects proceed smoothly. Contact us to learn more about our product and how we can fulfill your chemical needs.