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Transferrins are proteins responsible for transporting metal ions in all vertebrates. However, the iron binding properties of transferrins remain poorly understood. Iron, as a transition metal, forms ions with partially-occupied 3d subshells. The electrons within the 3d orbitals of iron-bound transferrin are therefore highly localized, and interact with one another in a complex manner that cannot be fully characterized by considering each electron separately. In this work, we make use of dynamical mean field theory, a technique that accounts for the strong interactions between these electrons. This is a higher level of theory than has ever been used to study transferrins. We present novel data on the effective spin, multiplet states and optical spectra of iron-bound human serum transferrin.