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Catalog Number:
02477
CAS Number:
180570-71-2
N α - Fmoc- N γ -trityl-D-asparagine
Purity:
≥ 99,5 % (ee, HPLC chirale)
Synonym(s):
Fmoc-D-Asn(Trt)-OH
Documents
$40.30 /1G
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Informations sur le produit

Na-Fmoc-Ng-trityl-D-asparagine is a versatile amino acid derivative widely utilized in peptide synthesis and drug development. This compound features a protective Fmoc (9-fluorenylmethoxycarbonyl) group, which facilitates the selective modification of amino acids during solid-phase peptide synthesis. Its trityl protection on the nitrogen enhances stability and solubility, making it an ideal choice for researchers focused on synthesizing complex peptides with high purity and yield.

In the pharmaceutical industry, Na-Fmoc-Ng-trityl-D-asparagine serves as a crucial building block for the development of peptide-based therapeutics, particularly in the design of biologically active compounds and vaccines. Its unique properties allow for efficient coupling reactions, enabling the creation of diverse peptide libraries for drug discovery. Researchers appreciate its reliability in producing high-quality peptides, which can lead to advancements in targeted therapies and personalized medicine.

Numéro CAS 
180570-71-2
Formule moléculaire
C38H32N2O5
Poids moléculaire 
596.7
Point de fusion 
190 - 210 °C
Rotation optique 
[a] D 20 = +14,5 ± 3 º (C = 1 dans MeOH)
Informations générales
Numéro CAS 
180570-71-2
Formule moléculaire
C38H32N2O5
Poids moléculaire 
596.7
Point de fusion 
190 - 210 °C
Rotation optique 
[a] D 20 = +14,5 ± 3 º (C = 1 dans MeOH)
Propriétés
Informations complémentaires sur la propriété à venir prochainement !
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Sécurité et réglementation
Matières dangereuses
-
Antibiotique
-
Réglementé par la DEA
Non
Avertissements 
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Applications

Na-Fmoc-Ng-trityl-D-asparagine is widely utilized in research focused on:

  • Peptide Synthesis: This compound is a key building block in the synthesis of peptides, particularly in solid-phase peptide synthesis, allowing for the creation of complex peptides with high purity and yield.
  • Drug Development: It plays a significant role in the pharmaceutical industry for developing peptide-based drugs, offering a way to modify peptide structures for enhanced stability and bioactivity.
  • Bioconjugation: The chemical is used in bioconjugation processes, facilitating the attachment of peptides to other biomolecules, which is crucial in creating targeted therapies and diagnostic agents.
  • Research in Neuroscience: Its applications extend to neuroscience research, where it helps in studying neuropeptides that play vital roles in brain function and behavior.
  • Protein Engineering: The compound is also valuable in protein engineering, aiding researchers in designing proteins with specific functions or properties for various applications in biotechnology.

Citations