Biochemical research constantly seeks specialized molecules to unravel complex biological mechanisms. Z-Pro-Pro-OH, a protected dipeptide derivative, has emerged as a valuable tool for scientists studying protein interactions, enzyme activities, and cellular processes. As a dedicated manufacturer and supplier of fine chemicals, we understand the importance of providing high-quality Z-Pro-Pro-OH to the research community. This article explores its key properties and diverse applications in biochemical research.

Understanding Z-Pro-Pro-OH Properties

Z-Pro-Pro-OH, or carbobenzoxy-L-prolyl-L-proline, is characterized by its specific dipeptide structure and the presence of the carbobenzoxy (Z) protecting group. Its molecular formula is C18H22N2O5, with a molecular weight of 346.38 g/mol, and its CAS Number is 7360-23-8. The proline residues within its structure confer unique conformational properties, influencing peptide folding and interactions. The Z-group provides a stable, yet removable, protection for the N-terminus, crucial for controlled synthesis and experimental manipulation.

Key Applications in Biochemical Research

The utility of Z-Pro-Pro-OH in biochemical research is multifaceted:

  • Studying Protein-Protein Interactions: Researchers often use peptides synthesized with Z-Pro-Pro-OH to mimic or disrupt protein-protein interaction domains. The proline-rich sequences can play significant roles in scaffolding or signaling pathways.
  • Enzyme Activity Assays: Z-Pro-Pro-OH serves as a substrate or component in the synthesis of specific substrates for studying enzymes like peptidases or proteases. For instance, its structure is relevant in assays involving proline-specific enzymes, where the Z-group's presence can influence enzymatic cleavage or recognition.
  • Peptide Fragment Synthesis: In the study of larger proteins, researchers synthesize shorter peptide fragments, including those derived from Z-Pro-Pro-OH, to map active sites, binding domains, or regions responsible for specific biological functions.
  • Development of Biochemical Probes: By incorporating Z-Pro-Pro-OH into labeled peptides (e.g., with fluorescent tags), scientists can create probes to track molecular localization, binding events, or cellular trafficking in real-time.
  • Investigating Peptide Stability and Degradation: The inherent stability conferred by the proline residues and the Z-protection can be leveraged to study peptide degradation pathways and the efficacy of inhibitors.

Sourcing Z-Pro-Pro-OH for Your Research Needs

To ensure the success of your biochemical research, it is imperative to buy Z-Pro-Pro-OH from a reputable supplier. As a dedicated Z-Pro-Pro-OH manufacturer, we prioritize product purity and consistent quality. When you purchase Z-Pro-Pro-OH from us, you are assured of a reliable supply that meets rigorous standards, enabling you to focus on your experimental objectives rather than material sourcing challenges. We offer Z-Pro-Pro-OH at competitive prices, making high-quality biochemical reagents accessible.

Conclusion

Z-Pro-Pro-OH is a versatile and valuable compound for advancing biochemical research. Its unique structural features and protective group make it ideal for a range of applications, from probing enzyme mechanisms to understanding complex protein interactions. As your trusted Z-Pro-Pro-OH supplier, we are here to support your scientific endeavors by providing a dependable source of this essential research chemical. Contact us today to learn more about our product and how we can facilitate your next breakthrough.