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Catalog Number:
31893
Fmoc-Gln(Trt)-Pro-OH
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$100.05 /1G
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Product Information

Fmoc-Gln(Trt)-Pro-OH is a versatile amino acid derivative widely utilized in peptide synthesis and drug development. This compound features a fluorenylmethyloxycarbonyl (Fmoc) protecting group, which allows for selective deprotection during the synthesis process, making it an essential building block for creating complex peptides. The presence of the Trityl (Trt) group enhances its stability and solubility, facilitating its use in various organic synthesis applications. Researchers and industry professionals appreciate its role in the development of therapeutic peptides, particularly in the fields of oncology and immunology, where precise peptide sequences are crucial for efficacy.

The unique properties of Fmoc-Gln(Trt)-Pro-OH make it an ideal choice for solid-phase peptide synthesis (SPPS), allowing for efficient coupling reactions and high yields. Its compatibility with various coupling reagents and solvents further enhances its utility in laboratory settings. Additionally, the compound's ability to form stable peptide bonds contributes to the production of high-purity peptides, which are essential for both research and pharmaceutical applications. With its proven track record in peptide synthesis, Fmoc-Gln(Trt)-Pro-OH stands out as a reliable and effective choice for researchers seeking to advance their work in peptide chemistry.

Molecular Formula
C43H43N3O7
Molecular Weight
725.84
MDL Number
MFCD31692260
Conditions
Conserver à -0°C.
General Information
Molecular Formula
C43H43N3O7
Molecular Weight
725.84
MDL Number
MFCD31692260
Conditions
Conserver à -0°C.
Properties
Additional property information coming soon!
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Safety and Regulations
Hazmat
Non
Antibiotic
Non
DEA-regulated
Non
Warnings
-
Applications

Fmoc-Gln(Trt)-Pro-OH is widely utilized in research focused on

  • Peptide Synthesis: This compound serves as a key building block in the synthesis of peptides, allowing researchers to create complex molecules for drug development and biological studies.
  • Bioconjugation: It is used in bioconjugation processes, where it helps attach peptides to other biomolecules, enhancing the functionality and targeting of therapeutic agents.
  • Drug Discovery: In pharmaceutical research, this compound aids in the design of novel drugs by enabling the exploration of peptide-based therapeutics, which can lead to more effective treatments.
  • Protein Engineering: Researchers utilize it in protein engineering to modify proteins for improved stability and activity, which is crucial in developing biopharmaceuticals.
  • Analytical Chemistry: This compound is also employed in analytical methods to study peptide interactions and stability, providing insights that are vital for understanding biological processes.

Citations