MFCD00038294
BOC-D-Leucinemonohydrate
Boc-D-Leu-OH&BOC-D-LEU
N-BOC-D-Leucine.H2O
Boc-D-Leu-OH Hydrate
N-(tert-Butoxycarbonyl)-D-leucine
D-Leucine, N-[(1,1-dimethylethoxy)carbonyl]-, hydrate (1:1)
BOC-D-LEUCINE-OH
N-T-BOC-D-LEUCINE
Boc-D-Leu-OH
N-(tert-Butoxycarbonyl)-D-leucine hydrate (1:1)
N-(tert-Butoxycarbonyl)-D-leucine Hydrate
BOC-D-LEU-OH2O
N-tert-butoxycarbonyl-D-leucine
n-boc-d-leucine
N-Boc-D-leucine Hydrate
D-Leucine, N-[(1,1-dimethylethoxy)carbonyl]-
tert-butoxycarbonyl-D-leucine
N-(t-butyloxycarbonyl)-D-leucine
BOC-D-LEUCINE

BOC-D-Leucine is a vital amino acid protecting agent widely employed in peptide synthesis. With its exceptional ability to protect the amine group during peptide chain assembly, BOC-D-Leucine plays a pivotal role in peptide synthesis strategies. Its high purity, reliability, and versatility make it a preferred choice among scientists and chemists in the field.

Product Features: High Purity: BOC-D-Leucine is manufactured with utmost care to ensure high purity, minimizing impurities. Its superior quality guarantees the synthesis of peptides with outstanding purity and integrity.

Efficient Amine Protection: BOC-D-Leucine serves as an effective safeguarding group for the amine group, preventing undesired reactions during peptide synthesis. It selectively shields the amine group of leucine, allowing controlled incorporation of leucine residues into the growing peptide chain.

Compatibility with Various Synthesis Methods: BOC-D-Leucine demonstrates remarkable compatibility with various peptide synthesis techniques, including solid-phase synthesis and solution-phase synthesis. Its versatility empowers chemists to employ different strategies for efficient peptide assembly.

Applications: Peptide Synthesis: BOC-D-Leucine is extensively utilized in solid-phase peptide synthesis (SPPS), the primary method for peptide construction. By protecting the amine group of leucine, it ensures precise integration of leucine residues into the peptide chain, facilitating the synthesis of customized peptides.

Drug Discovery and Development: BOC-D-Leucine plays a crucial role in synthesizing peptide-based drugs and drug candidates. It enables the incorporation of leucine residues into peptides, aiding the development of therapeutics targeting specific biological pathways or receptors.

Peptide Modification: BOC-D-Leucine is employed in peptide modification techniques, such as N-terminal labeling or side chain functionalization. By selectively shielding the amine group of leucine, it allows chemists to introduce desired modifications at specific sites within the peptide sequence.

Market Outlook: The demand for BOC-D-Leucine is steadily growing within the peptide synthesis market owing to its reliability and compatibility with various synthesis methods. Pharmaceutical companies, academic research institutions, and contract manufacturing organizations (CMOs) rely on BOC-D-Leucine for peptide synthesis projects aimed at drug discovery, therapeutic development, and biochemical research. With the increasing interest in peptide therapeutics and modified peptides, the market for high-quality amino acid protecting agents like BOC-D-Leucine is expanding.

Conclusion: BOC-D-Leucine is a versatile amino acid protecting agent that plays a pivotal role in peptide synthesis. Its high purity, efficient amine protection, and compatibility with different synthesis methods make it a valuable tool for chemists and researchers in the field. The applications of BOC-D-Leucine in peptide synthesis, drug discovery, and peptide modification contribute to advancements in therapeutics, peptide-based drugs, and biochemical research.

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