Metalloproteins are crucial for life. The mutual relationship between metal ions and proteins makes metalloproteins able to accomplish key processes in biological systems, often very difficult to reproduce with inorganic coordination compounds under mild conditions. Taking inspiration from nature, many efforts have been devoted to developing artificial molecules as metalloprotein mimics. We have witnessed an explosion of protein design strategies leading to designed metalloproteins, ranging from stable structures to functionalmolecules. This review illustrates the most recent results for inserting metalloprotein functions in designed and engineered protein scaffolds. The selected examples highlight the potential of different approaches for the construction of artificial molecules capable of simulating and even overcoming the features of natural metalloproteins.

Engineering Metalloprotein Functions in Designed and Native Scaffolds / Nastri, F.; D'Alonzo, D.; Leone, L.; Zambrano, G.; Pavone, V.; Lombardi, A.. - In: TRENDS IN BIOCHEMICAL SCIENCES. - ISSN 0968-0004. - 44:12(2019), pp. 1022-1040. [10.1016/j.tibs.2019.06.006]

Engineering Metalloprotein Functions in Designed and Native Scaffolds

Nastri F.;D'Alonzo D.;Leone L.;Zambrano G.;Pavone V.;Lombardi A.
2019

Abstract

Metalloproteins are crucial for life. The mutual relationship between metal ions and proteins makes metalloproteins able to accomplish key processes in biological systems, often very difficult to reproduce with inorganic coordination compounds under mild conditions. Taking inspiration from nature, many efforts have been devoted to developing artificial molecules as metalloprotein mimics. We have witnessed an explosion of protein design strategies leading to designed metalloproteins, ranging from stable structures to functionalmolecules. This review illustrates the most recent results for inserting metalloprotein functions in designed and engineered protein scaffolds. The selected examples highlight the potential of different approaches for the construction of artificial molecules capable of simulating and even overcoming the features of natural metalloproteins.
2019
Engineering Metalloprotein Functions in Designed and Native Scaffolds / Nastri, F.; D'Alonzo, D.; Leone, L.; Zambrano, G.; Pavone, V.; Lombardi, A.. - In: TRENDS IN BIOCHEMICAL SCIENCES. - ISSN 0968-0004. - 44:12(2019), pp. 1022-1040. [10.1016/j.tibs.2019.06.006]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/919955
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