In the dynamic field of biochemistry, precise tools are essential for unraveling complex biological mechanisms. 1,10-Phenanthroline Monohydrate (CAS 5144-89-8) has emerged as a significant compound, particularly for its role as a metallopeptidase inhibitor and its utility in various biochemical assays. For researchers and procurement specialists seeking reliable biochemical reagents, understanding the applications and sourcing of this compound is crucial.

Understanding 1,10-Phenanthroline Monohydrate's Biochemical Significance

Chemically classified as a chelating agent, 1,10-Phenanthroline Monohydrate exhibits a strong affinity for divalent metal ions. This property is fundamental to its biochemical applications. By binding to metal ions, it can modulate the activity of metalloenzymes, including metallopeptidases. This inhibition occurs because the enzyme's catalytic activity often relies on the presence of a specific metal ion, which phenanthroline effectively sequesters.

Key Biochemical Applications and Why You Should Buy It

  • Metallopeptidase Inhibition: One of the most critical roles of 1,10-Phenanthroline Monohydrate in biochemistry is its function as a potent inhibitor of metallopeptidases. These enzymes are involved in a myriad of cellular processes, and their dysregulation is linked to various diseases. For scientists studying these pathways, sourcing high-purity 1,10-phenanthroline monohydrate is essential to achieve reliable experimental outcomes. If you need to purchase 1,10-phenanthroline monohydrate for enzyme inhibition studies, ensure your supplier provides verifiable purity.
  • Studying DNA-Protein Interactions: In conjunction with metal ions like copper, 1,10-Phenanthroline can exhibit nuclease activity. This characteristic has been harnessed to study DNA-protein interactions, providing insights into gene regulation and DNA repair mechanisms. Researchers in molecular biology often seek this compound to probe these complex interactions.
  • Preservation of Protein Modifications: In cell lysis procedures, especially when analyzing ubiquitination pathways, 1,10-Phenanthroline Monohydrate can be used to protect specific ubiquitin chains, such as K63-linked chains, from degradation by deubiquitinating enzymes (DUBs) of the JAMM family. This protective role is invaluable for researchers in cell signaling and protein degradation studies. Finding a consistent manufacturer for this application ensures the integrity of your samples.
  • Metal Ion Chelation in Assays: Its strong chelating ability makes it useful in various biochemical assays where controlling or detecting specific metal ions is necessary.

Procurement Considerations for Biochemical Researchers

For procurement professionals in the life sciences, sourcing 1,10-Phenanthroline Monohydrate involves:

  • Purity Standards: As with analytical applications, biochemical research demands high purity. ACS grade or equivalent is typically required. Always check the CoA for assay results.
  • Supplier Expertise: Partnering with a supplier who understands the needs of biochemical research can be beneficial. They should be able to provide documentation and support. Consider purchasing from an established 1,10-phenanthroline monohydrate manufacturer in China for competitive pricing.
  • Bulk Purchasing: For ongoing research projects, bulk purchasing can offer cost savings. Inquire about volume discounts when you buy 1,10-phenanthroline monohydrate.

In summary, 1,10-Phenanthroline Monohydrate is a multifaceted reagent with critical applications in modern biochemistry. Its ability to inhibit metallopeptidases and its role in studying DNA-protein interactions make it a valuable asset. By carefully selecting your manufacturer and ensuring product purity, you can effectively leverage this compound for groundbreaking biochemical research.