For scientists and researchers pushing the boundaries of knowledge, a deep understanding of the compounds they work with is essential. DL-O-Phosphoserine, identified by CAS 17885-08-4, is a molecule that warrants closer examination due to its intriguing biological role and expanding research applications. As a key metabolite, its study offers insights into fundamental cellular processes.

DL-O-Phosphoserine is structurally an ester formed between serine and a phosphate group. It's recognized as a non-protein amino acid, meaning it's not directly incorporated into proteins during translation but participates in other crucial metabolic functions. In biological systems, it is an intermediate in the metabolism of phosphoserine. This biochemical pathway is critical for various cellular activities. The compound's existence across a wide range of organisms highlights its evolutionary importance.

The scientific community has explored DL-O-Phosphoserine for several key research areas. It's a subject of interest in studies concerning metabolic disorders, as imbalances in phosphoserine metabolism can be indicative of certain conditions. Furthermore, its role in cellular signaling and enzyme regulation is an active area of investigation. For researchers requiring this compound, access to high-purity DL-O-Phosphoserine from a dependable source is crucial for ensuring the validity and reproducibility of experimental results. The ability to buy DL-O-Phosphoserine from established manufacturers, especially those with a strong presence in China known for producing fine chemicals, provides a reliable avenue for obtaining these materials.

Investigating the scientific literature reveals applications ranging from its use in studying specific enzyme activities to its potential role in various biological responses. For those involved in R&D, understanding these scientific underpinnings helps in identifying novel applications and optimizing experimental designs. The availability of high-grade DL-O-Phosphoserine from reputable suppliers ensures that researchers have the necessary tools to advance their studies.

In conclusion, the scientific significance of DL-O-Phosphoserine is substantial and growing. As research continues to unveil its complex roles, the demand for this compound will likely increase. This underscores the importance of having reliable access to high-quality materials, positioning China-based manufacturers and suppliers as key partners for the global R&D community seeking CAS 17885-08-4.