Ferritins for Chemistry and for Life.
Elizabeth C TheilRabindra K BeheraTakehiko ToshaPublished in: Coordination chemistry reviews (2012)
Ferritins, highly symmetrical protein nanocages, are reactors for Fe2+ and dioxygen or hydrogen peroxide that are found in all kingdoms of life and in many different cells of multicellular organisms. They synthesize iron concentrates required for cells to make cofactors of iron proteins (heme, FeS, mono and diiron). The caged ferritin biominerals, Fe2O3•H2O are also antioxidants, acting as sinks for iron and oxidants scavenged from damaged proteins; genetic regulation of ferritin biosynthesis is sensitive to both iron and oxidants. Here, the emphasis here is ferritin oxidoreductase chemistry, ferritin ion channels for Fe 2+ transit into and out of the protein cage and Fe 3+ O mineral nucleation, and uses of ferritin cages in nanocatalysis and nanomaterial synthesis. The Fe2+ and O ferritin protein reactors, likely critical in the transition from anaerobic to aerobic life on earth, play central, contemporary roles that balance iron and oxygen chemistry in biology and have emerging roles in nanotechnology.
Keyphrases
- iron deficiency
- hydrogen peroxide
- induced apoptosis
- cell cycle arrest
- protein protein
- binding protein
- nitric oxide
- microbial community
- drug discovery
- amino acid
- signaling pathway
- dna methylation
- endoplasmic reticulum stress
- wastewater treatment
- small molecule
- metal organic framework
- genome wide
- oxidative stress
- high intensity
- multidrug resistant
- copy number
- gram negative
- visible light