For professionals in the pharmaceutical and biotechnology sectors, a deep understanding of chemical intermediates is crucial. N-alpha-(tert-Butoxycarbonyl)-L-lysine, commonly referred to as Boc-L-Lysine, is a prime example of such an essential compound. Its CAS number, 13734-28-6, identifies a molecule that is indispensable in the synthesis of peptides and other complex organic molecules.

The defining feature of Boc-L-Lysine is the presence of the tert-butoxycarbonyl (Boc) protecting group attached to the alpha-amino nitrogen atom of the lysine side chain. This protective measure prevents unwanted reactions at this site during synthetic processes, particularly during peptide coupling. Coupled with protection on the epsilon-amino group, this dual protection allows for orthogonal deprotection strategies, a sophisticated technique enabling highly specific modifications and extensions of molecular chains.

When considering the buy N-alpha-Boc-L-lysine online, it's vital to focus on its specified chemical properties. Typically supplied as a white powder, its purity is a critical factor, often exceeding 99%. This high purity ensures minimal interference from byproducts, leading to more reliable experimental results and higher yields in synthesis. Its molecular formula, C11H22N2O4, and molecular weight of 246.30 are standard identifiers for chemists working with this compound.

The stability and handling of Boc-L-Lysine are also important considerations. It is generally stored under refrigeration to maintain its integrity. Its solubility characteristics, often being soluble in organic solvents but less so in water, dictate the conditions required for its effective use in reaction mixtures. These chemical properties are extensively documented by suppliers like NINGBO INNO PHARMCHEM CO.,LTD., who emphasize adherence to quality standards.

As a key pharmaceutical intermediate, Boc-L-Lysine's utility extends to areas like drug discovery, where precise molecular construction is necessary. Its role as an amino acid derivative makes it a fundamental building block for peptides that may function as therapeutics or research tools. Grasping the detailed chemical properties of this compound is key to unlocking its full potential in advanced scientific applications.