Abstract
Hemes and heme proteins are vital components of essentially every cell of every living organism. Their roles in cells include
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1
the transport of dioxygen in the red blood cells of higher animals (hemoglobin);
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2
the storage of dioxygen in the muscles of higher animals (myoglobin);
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3
the transport of electrons in the respiratory chains of organisms as diverse as bacteria, yeasts, algae, plants, and animals, and in photosynthetic cells from those of the simplest photosynthetic bacteria to those of higher plants (cytochromes a, b, c, d, f);
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4
synthesis, modification and degradation of fatty acids, steroid and adrenal hormones, anesthetics and xenobiotics (cytochromes P-450);
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5
activation and metabolism of hydrogen peroxide (peroxidases, myeloperoxidase, haloperoxidases, catalases, etc.); and
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6
metabolism of the oxides of nitrogen and sulfur (nitrite reductase, sulfite oxidase, etc.).
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Walker, F.A., Simonis, U. (1993). Proton NMR Spectroscopy of Model Hemes. In: Berliner, L.J., Reuben, J. (eds) NMR of Paramagnetic Molecules. Biological Magnetic Resonance, vol 12. Springer, Boston, MA. https://doi.org/10.1007/978-1-4615-2886-9_4
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