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Catalog Number:
33670
Acide Fmoc-(2 S ,3 S -3-amino-2-hydroxy-3-(3-méthoxyphényl)-propionique
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$100.05 /25 mg
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Product Information

Fmoc-(2S,3S)-3-amino-2-hydroxy-3-(3-methoxyphenyl)propionic acid is a versatile amino acid derivative widely utilized in peptide synthesis and drug development. This compound features a unique Fmoc (9-fluorenylmethoxycarbonyl) protecting group, which enhances its stability and solubility, making it an ideal choice for solid-phase peptide synthesis. Its structural characteristics allow for the introduction of various functional groups, facilitating the design of bioactive peptides and pharmaceuticals. Researchers appreciate its role in creating complex peptide sequences, which are essential for developing therapeutic agents and studying protein interactions.

In addition to its applications in peptide synthesis, this compound is also valuable in the field of medicinal chemistry, where it serves as a building block for the development of novel drugs targeting specific biological pathways. Its ability to incorporate hydrophobic and hydrophilic properties makes it suitable for formulating compounds with improved bioavailability and efficacy. With its unique features, Fmoc-(2S,3S)-3-amino-2-hydroxy-3-(3-methoxyphenyl)propionic acid stands out as a crucial tool for researchers and industry professionals aiming to innovate in the fields of biochemistry and pharmacology.

Molecular Formula
C 25 H 236
Molecular Weight
433.45
MDL Number
MFCD07363639
Conditions
Conserver entre 2 et 8 °C
General Information
Molecular Formula
C 25 H 236
Molecular Weight
433.45
MDL Number
MFCD07363639
Conditions
Conserver entre 2 et 8 °C
Properties
Additional property information coming soon!
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Safety and Regulations
Hazmat
Non
Antibiotic
Non
DEA-regulated
Non
Warnings
-
Applications

Fmoc-(2S,3S)-3-amino-2-hydroxy-3-(3-methoxyphenyl)propionic acid is widely utilized in research focused on:

  • Peptide Synthesis: This compound serves as a crucial building block in the synthesis of peptides, allowing researchers to create complex structures for drug development.
  • Drug Discovery: It is used in the design of novel pharmaceuticals, particularly in targeting specific biological pathways, enhancing the efficacy of potential drug candidates.
  • Bioconjugation: The compound can be employed in bioconjugation processes, linking biomolecules to therapeutic agents, which is vital in creating targeted therapies.
  • Research in Neuroscience: Its structural properties make it a valuable tool in studying neurotransmitter systems, aiding in the development of treatments for neurological disorders.
  • Material Science: The compound finds applications in developing smart materials, leveraging its unique chemical properties to create responsive systems for various industrial applications.

Citations