Of all the amino acids, the surface of π-electron conjugated carbon nanoparticles has the largest affinity for tryptophan, followed by tyrosine, phenylalanine, and histidine. In order to increase the binding of a protein to a fullerene, it should suffice to mutate a residue of the site that binds to the fullerene to tryptophan, Trp. Computational chemistry shows that this intuitive approach is fraught with danger. Mutation of a binding residue to Trp may even destabilize the binding because of the complicated balance between van der Waals, polar and non-polar solvation interactions.
Trozzi, F., Marforio, T.D., Bottoni, A., Zerbetto, F., Calvaresi, M. (2017). Engineering the Fullerene-protein Interface by Computational Design: The Sum is More than its Parts. ISRAEL JOURNAL OF CHEMISTRY, 57(6), 547-552 [10.1002/ijch.201600127].
Engineering the Fullerene-protein Interface by Computational Design: The Sum is More than its Parts
Marforio, Tainah Dorina;Bottoni, Andrea;Zerbetto, Francesco
;Calvaresi, Matteo
2017
Abstract
Of all the amino acids, the surface of π-electron conjugated carbon nanoparticles has the largest affinity for tryptophan, followed by tyrosine, phenylalanine, and histidine. In order to increase the binding of a protein to a fullerene, it should suffice to mutate a residue of the site that binds to the fullerene to tryptophan, Trp. Computational chemistry shows that this intuitive approach is fraught with danger. Mutation of a binding residue to Trp may even destabilize the binding because of the complicated balance between van der Waals, polar and non-polar solvation interactions.| File | Dimensione | Formato | |
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Isr_J_Chem.pdf
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