🔑 It has multiple binding sites for different molecules, including fatty acids, thyroxin, and nucleic acids.
🔑 Albumin also plays a role in scavenging and transporting heme, preventing oxidative damage.
🔑 It has enzymatic activities and is a biomarker for various diseases.
🔑 Plasma-derived albumin can be damaged, but recombinant albumins from baker’s yeast are safe and of high quality.
Introduction:
Human serum albumin (HSA) is a critical molecule for our health. It is a monomeric globular protein with multiple binding sites that allows it to transport and regulate various ligands, including fatty acids, metal ions, drugs, and toxins. HSA also plays a role in scavenging and transporting heme and has physiologically relevant enzyme activities. However, plasma-derived albumin can become damaged and compromised in function. Recombinant albumin from sources such as baker’s yeast has been proven to be nature-identical and of high quality.
- Albumin has multiple binding sites for fatty acids and various other molecules, allowing it to transport and regulate their availability.
- Albumin plays a role in scavenging and transporting heme, preventing oxidative damage.
- Albumin displays various physiologically relevant enzyme activities.
- Plasma-derived albumin can become damaged and compromised in function over time.
- Recombinant albumin from baker’s yeast is nature-identical and of high quality.
Conclusion:
Human serum albumin plays a crucial role in transporting and regulating various molecules in our bodies. However, plasma-derived albumin can become compromised in function over time. Recombinant albumin from baker’s yeast offers a safe and high-quality alternative for therapeutic use.