In the realm of peptide synthesis, the compound 878797-01-4 holds significant importance. Known by other names such as MEPRO)-OH and FMOC-PHE-SER(PSIME, it's a key p in biochemical research.

This short peptide, a small chain of amino acids, is a building block for more complex structures. Its unique properties make it a valuable tool in the development of pharmaceuticals.

Understanding the characteristics of 878797-01-4 is crucial for its effective application. From its stability and solubility to its purity and molecular weight, each aspect plays a role in its functionality.

In this article, we delve into the properties of 878797-01-4, its applications, and its relevance in peptide research. Join us as we explore this fascinating compound.

What is 878797-01-4?

The compound known as 878797-01-4 is a significant entity in the field of peptide chemistry. It is often identified by its alternative names, MEPRO)-OH and FMOC-PHE-SER(PSIME.

878797-01-4 is classified as a short peptide. Short peptides are small sequences of amino acids that play vital roles in biochemical reactions.

This compound serves as a crucial building block for creating complex peptide structures. Its unique sequence and properties enable its use in various biochemical applications.

In research, 878797-01-4's distinct features are harnessed to develop new drugs and study biological processes. Understanding these can aid advancements in the pharmaceutical industry.

Chemical Structure and Characteristics

The chemical structure of 878797-01-4 is a precise combination of amino acids. This structure influences its functionality in various chemical environments.

One of the critical characteristics of 878797-01-4 is its stability across different conditions. Stability is essential for its role in laboratory synthesis.

878797-01-4 also exhibits specific solubility features that determine its usability. Solvent compatibility is crucial for practical applications in research.

Another important characteristic is its molecular weight. This feature helps in identifying and distinguishing 878797-01-4 from other peptides in analytic processes.

Applications in Peptide Synthesis

878797-01-4 plays a vital role in peptide synthesis. It acts as a building block in creating larger peptide chains.

Researchers appreciate its versatility. This compound can be modified for different synthesis requirements, demonstrating flexibility.

FMOC-PHE-SER(PSIME), another name for 878797-01-4, is often used in complex peptide constructions. This usage highlights its significance in research applications.

Short peptides like 878797-01-4 are integral in developing therapeutic agents. They are pivotal in pharmaceutical advancements.

Importance in Biochemical Research and Pharmaceuticals

878797-01-4 is crucial for biochemical research. Its properties help researchers explore cellular functions and molecular pathways.

In pharmaceutical applications, this compound is indispensable. It serves as a foundational element in drug formulation and synthesis.

Researchers study its solubility and stability. These qualities impact its effectiveness in creating reliable pharmaceuticals.

The compound's potential therapeutic uses are being explored. Its precise structure is key to medical advancements and innovative treatments.

Handling and Safety Considerations

Handling 878797-01-4 requires careful attention to safety protocols. Always use appropriate personal protective equipment to prevent exposure.

Store the compound in a cool, dry place. Proper storage ensures its stability and prolongs its shelf life.

Follow safety data sheets and handling instructions meticulously. This minimizes risks during laboratory use and ensures researcher safety.

Future Directions and Research Potential

878797-01-4 holds promise in ongoing peptide research. Its unique properties make it a candidate for new pharmaceutical innovations.

Exploring modifications to 878797-01-4 could lead to enhanced therapeutic applications. This is an exciting area for future study.

Further understanding of its role in biological processes may unlock new pathways in drug development. Researchers continue to investigate these potential breakthroughs.

Conclusion: The Significance of 878797-01-4

878797-01-4 is pivotal in peptide synthesis and research. It supports advancements in pharmaceuticals and biochemical understanding.

Its unique properties offer valuable insights into complex peptide structures. The continued exploration and application of this compound are crucial for future scientific developments.