In the intricate world of biochemistry and lipid research, understanding the specific roles of various lipid molecules is paramount. Among these, lysophospholipids, and particularly 1-Oleoyl-2-hydroxy-sn-glycero-3-phosphoethanolamine (commonly known as O-LysoPE), stand out for their diverse biological functions and applications. For researchers and product formulators, sourcing high-quality O-LysoPE is essential for achieving reliable experimental outcomes and developing innovative products. This article delves into what makes O-LysoPE a compound of interest and how to approach its procurement.

What is O-LysoPE?

O-LysoPE is a lysophospholipid, a class of molecules derived from phospholipids where one fatty acid chain is absent. Specifically, it is a derivative of phosphatidylethanolamine, featuring an oleoyl (18:1) fatty acid at the sn-1 position and a hydroxyl group at the sn-2 position. Its chemical structure (CAS No.: 89576-29-4) defines its unique physicochemical properties, typically appearing as a white powder, indicating a solid, stable form suitable for storage and handling by any reputable chemical supplier. The purity of O-LysoPE is a critical factor for its intended applications, with researchers typically seeking products with a purity exceeding 98% to ensure accuracy in studies.

Biological Significance and Applications

The significance of O-LysoPE extends across various biological domains. Research has shown its involvement in:

  • Cellular Signaling: O-LysoPE has been observed to induce transient increases in intracellular calcium in PC12 rat neuronal cells, suggesting a role in neuronal signaling pathways. This makes it a valuable compound for investigating neurobiological mechanisms and potential therapeutic targets.
  • Immune Response Modulation: Studies indicate that O-LysoPE can influence the production of cytokines like IL-2 and IL-4, pointing towards its role in modulating immune responses, particularly the T helper 2 (Th2) pathway. This opens avenues for research in immunology and the development of immunomodulatory agents.
  • Metabolism: Levels of O-LysoPE have been shown to increase in specific tissues, such as brown adipose tissue, following stimuli like cold exposure, hinting at its involvement in metabolic regulation.
  • Agricultural Applications: While not directly O-LysoPE itself, related lysophospholipids have found applications in agriculture for accelerating ripening and improving crop quality, indicating the broader potential of this lipid class in food science and agriculture.

Sourcing High-Quality O-LysoPE

For any serious researcher or product developer, the choice of supplier for O-LysoPE is crucial. When looking to buy O-LysoPE, consider these factors:

  • Purity and Quality Control: Always prioritize suppliers that offer high-purity O-LysoPE (>98%) and provide comprehensive Certificates of Analysis (CoA) for each batch. This ensures the integrity of your research and the reliability of your product formulations.
  • Supplier Reputation and Expertise: Partnering with established manufacturers and suppliers with a proven track record in producing and supplying fine chemicals and biochemicals is vital. Look for suppliers who understand the needs of the scientific community and can offer technical support.
  • Availability and Pricing: Ensure that the supplier can meet your quantity requirements consistently and offers competitive pricing for O-LysoPE. Planning your procurement strategy with a reliable manufacturer in China can offer cost-effectiveness.

By understanding the properties and applications of O-LysoPE and selecting a reputable manufacturer for your O-LysoPE purchase, you can effectively advance your research objectives and product development initiatives. Explore the possibilities with a trusted supplier dedicated to delivering excellence in biochemicals.