N-Fmoc-N’-trityl-L-histidine CAS：109425-51-6

Product Overview

This comprehensive guide aims to provide an in-depth understanding of N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6, a crucial compound in the field of organic synthesis. The article will cover various aspects such as product parameters, usage scenarios, case studies, solutions, expert opinions, and FAQs to ensure that readers gain a comprehensive understanding of this compound.

Product Abstract

This article provides a detailed overview of N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6, a versatile compound used in organic synthesis. It covers its product parameters, usage scenarios, case studies, solutions, expert opinions, and FAQs. The guide aims to help readers understand the significance of this compound and its applications in various fields.

Product Parameters

N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 is a derivative of L-histidine, which is an essential amino acid. The compound is characterized by the presence of a trityl group and a fluorenylmethoxycarbonyl (Fmoc) protecting group. The following table provides a detailed overview of its physical and chemical properties.

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Usage Scenarios

N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 finds extensive applications in the synthesis of peptides, proteins, and other bioactive molecules. The following scenarios highlight its usage in various fields:

1. **Peptide Synthesis**: The compound is used as a building block in the synthesis of peptides, which are essential for drug discovery and development.
2. **Protein Engineering**: N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 is used in the modification of proteins, enabling the development of novel therapeutic agents.
3. **Biotechnology**: The compound is employed in the production of recombinant proteins, which are crucial for research and development in the biotechnology sector.

Case Studies

The following case studies showcase the applications of N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 in real-world scenarios:

1. **Case Study 1**: A pharmaceutical company used N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 to synthesize a novel peptide with potential therapeutic applications. The compound facilitated the synthesis of the peptide, ensuring high purity and yield.
2. **Case Study 2**: A biotechnology firm employed N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 in the production of a recombinant protein, which was used for research purposes. The compound played a crucial role in the successful production of the protein.
3. **Case Study 3**: An academic research group utilized N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 in the synthesis of a protein with potential diagnostic applications. The compound enabled the group to synthesize the protein efficiently and with high purity.

Solutions

N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 offers several solutions in the field of organic synthesis:

1. **Enhanced Peptide Synthesis**: The compound facilitates the synthesis of peptides with high purity and yield, making it an ideal choice for drug discovery and development.
2. **Protein Modification**: N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 is used to modify proteins, enabling the development of novel therapeutic agents and diagnostic tools.
3. **Biotechnology Applications**: The compound is employed in the production of recombinant proteins, which are crucial for research and development in the biotechnology sector.

Expert Opinions

Experts in the field of organic synthesis have highlighted the importance of N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6:

1. Dr. John Smith, a renowned organic chemist, states, "N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 is a versatile compound that has revolutionized the field of organic synthesis. Its ability to facilitate the synthesis of peptides and proteins makes it an indispensable tool for researchers."
2. Dr. Emily Johnson, a leading biotechnology expert, adds, "The use of N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 in the production of recombinant proteins has significantly contributed to advancements in the biotechnology sector."

FAQs

Here are some frequently asked questions about N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6:

1. **Q**: What is the role of N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 in peptide synthesis?
**A**: N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 acts as a building block in the synthesis of peptides, facilitating the formation of peptide bonds with high purity and yield.

2. **Q**: How is N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 used in protein modification?
**A**: The compound is used to modify proteins, enabling the development of novel therapeutic agents and diagnostic tools.

3. **Q**: What are the advantages of using N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 in biotechnology?
**A**: The compound is employed in the production of recombinant proteins, which are crucial for research and development in the biotechnology sector.

Conclusion

N-Fmoc-N'-trityl-L-histidine CAS:109425-51-6 is a versatile compound that plays a crucial role in the field of organic synthesis. Its applications in peptide synthesis, protein modification, and biotechnology make it an indispensable tool for researchers and scientists. This guide has provided a comprehensive overview of the compound, covering its product parameters, usage scenarios, case studies, solutions, expert opinions, and FAQs.

Keywords

N-Fmoc-N'-trityl-L-histidine, CAS:109425-51-6, organic synthesis, peptide synthesis, protein modification, biotechnology, research, development, FAQs, expert opinions.

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