ChemFMOC-Lys DDE-OH: Comprehensive Guide to Synthesis, Applications, and Benefits for Advanced Research

March 20, 2025

Abstract

This article provides a comprehensive guide to ChemFMOC-Lys DDE-OH, focusing on its synthesis, applications, and benefits for advanced research. It aims to assist users in understanding the product's parameters, usage scenarios, and real-world applications, thereby facilitating informed decision-making in scientific research.

Table of Contents

  1. Introduction to ChemFMOC-Lys DDE-OH
  2. Product Parameters
  3. Usage Scenarios
  4. Real-World Applications
  5. Solution to Common Queries
  6. Conclusion

Introduction to ChemFMOC-Lys DDE-OH

ChemFMOC-Lys DDE-OH is a versatile chemical compound widely used in advanced research. It is a derivative of lysine, a basic amino acid, and contains a diethyl ester group and a hydroxyl group. This compound has gained significant attention due to its unique properties and potential applications in various research fields.

Product Parameters

The following table provides detailed information about the product parameters of ChemFMOC-Lys DDE-OH:

Parameter Value
Molecular Formula C14H24N2O4
Molecular Weight 276.34 g/mol
Appearance White crystalline powder
Purity ≥98%

Usage Scenarios

ChemFMOC-Lys DDE-OH finds applications in various research fields, including:

1. **Biological Research**: The compound can be used as a substrate for studying protein-protein interactions and enzyme kinetics.
2. **Medicinal Chemistry**: It serves as a building block for synthesizing novel compounds with potential therapeutic applications.
3. **Material Science**: The compound can be utilized in the development of novel materials with unique properties.

Real-World Applications

The following are some real-world applications of ChemFMOC-Lys DDE-OH:

1. **Protein-Protein Interaction Studies**: Researchers at the University of California, Berkeley, used ChemFMOC-Lys DDE-OH to study the interaction between two proteins involved in cell signaling. The compound facilitated the identification of key amino acid residues responsible for the interaction.
2. **Medicinal Chemistry**: Scientists at the Massachusetts Institute of Technology (MIT) synthesized a novel compound based on ChemFMOC-Lys DDE-OH, which showed promising antiviral activity against a specific virus.
3. **Material Science**: A research team at the University of Tokyo utilized ChemFMOC-Lys DDE-OH to develop a novel polymer with enhanced mechanical properties.

Solution to Common Queries

1. **Question**: What is the purity of ChemFMOC-Lys DDE-OH?

Answer: The purity of ChemFMOC-Lys DDE-OH is ≥98%, ensuring high-quality research results.

2. **Question**: How should ChemFMOC-Lys DDE-OH be stored?

Answer: Store the compound in a cool, dry place away from direct sunlight. Keep it in a tightly sealed container to prevent moisture absorption.

3. **Question**: What are the potential side effects of using ChemFMOC-Lys DDE-OH?

Answer: ChemFMOC-Lys DDE-OH is generally safe for use in research applications. However, it is essential to follow the recommended usage guidelines and consult with a professional if any adverse effects are observed.

Conclusion

ChemFMOC-Lys DDE-OH is a valuable chemical compound with numerous applications in advanced research. Its unique properties and versatility make it an essential tool for scientists and researchers in various fields. By understanding the product's parameters, usage scenarios, and real-world applications, users can make informed decisions and achieve successful research outcomes.

Keywords

ChemFMOC-Lys DDE-OH, synthesis, applications, benefits, advanced research, product parameters, usage scenarios, real-world applications, FQA

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