When discussing ferrioxamine E, we refer to a compound whose properties and applications are of significant interest across various sectors, particularly in the realm of chemistry. Derived from the ferrioxamine family, its applications range from medicine to biomedical research.

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Ferrioxamine E: a microbial agent

Ferrioxamine E (CAS 20008-20-2) exhibits significant antimicrobial properties, making it invaluable in cell culture media. Its ability to inhibit the growth of unwanted microorganisms ensures that cell cultures remain uncompromised by contaminating agents. Such contamination could adversely affect both experiments and the reliability of their results.

By incorporating ferrioxamine E into culture media, an environment conducive to cellular growth and proliferation is created. Its presence not only prevents contamination but also safeguards the integrity of the cultured cells.

As a result, ferrioxamine E finds extensive use across various biological research, biotechnology, microbiology, and cell culture applications. Its ability to maintain sterility in experiments is indispensable for ensuring rigorous results. 

Other uses and applications

Belonging to the siderophore class of compounds, ferrioxamine E, within the ferrioxamine family, exhibits a high affinity for iron. This property renders it crucial in several biological processes involving the transport and capture of iron.

One of its primary applications is in iron chelation therapy within the human body. Chelation aids in the removal of heavy metals from the organism, making it vital in treatments for iron poisoning.

In the field of biomedical research, ferrioxamine E serves as a tool for studying iron distribution in the metabolism of living organisms. Its ability to form complexes with iron provides valuable insights for further investigation into specific diseases or physiological processes.

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