Holo-Transferrin: Essential Protein for Iron Transport and Cellular Uptake in Biological Research
Discover the critical role of Holo-Transferrin in biological systems and its applications in advanced research.
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Holo-Transferrin
Holo-Transferrin is an essential iron-binding glycoprotein crucial for the biological transport of iron from plasma to cells. It supports vital cellular processes including respiration, proliferation, and immune function, while also exhibiting antioxidant and bactericidal properties. Its role in delivering iron effectively makes it indispensable in various research applications, particularly in cell culture.
- The crucial role of Holo-Transferrin in delivering iron to cells via specific cell surface receptors and endocytosis pathways ensures optimal cellular function.
- Understanding the iron transport protein for biological research applications can lead to advancements in understanding metabolic disorders.
- The importance of cellular iron uptake mechanism highlights how Holo-Transferrin directly influences cell health and activity.
- Holo-transferrin for cell culture media, as an iron-saturated form, effectively eliminates the need to add exogenous iron, simplifying media preparation.
Advantages Provided by the Product
Efficient Iron Delivery
Holo-Transferrin ensures efficient delivery of iron to cells, supporting critical biological processes and research needs.
Supports Cell Viability and Growth
Its function in iron metabolism directly contributes to cell proliferation and respiration, making it a key component in cell culture media.
Versatile Research Applications
From studying iron metabolism to developing new cell-based assays, its broad applicability enhances scientific discovery.
Key Applications
Cell Culture
Utilized in cell culture media to provide a stable and effective source of iron, supporting cell growth and viability.
Iron Metabolism Studies
Essential for research into iron transport and metabolism, aiding the understanding of related physiological and pathological conditions.
Biomedical Research
Applied in various biomedical research contexts to study cellular functions influenced by iron availability and transport.
Diagnostic Reagent Development
Serves as a component in the development of diagnostic reagents, particularly those related to iron deficiency or overload.