Fet3, the multicopper oxidase of yeast, oxidizes extracellular ferrous iron which is then transported into the cell through the permease Ftr1, A three-dimensional model structure of Fet3 has been derived by homology modeling, Fet3 consists of three cupredoxin domains joined by a trinuclear copper cluster which is connected to the blue copper site located in the third domain. Close to this site, which is the primary electron acceptor from the substrate, residues for a potential iron binding site could be identified. The surface disposition of negatively charged residues suggests that Fet3 can translocate Fe3+ to the permease Ftr1 through a pathway under electrostatic guidance.
Homology modeling of the multicopper oxidase Fet3 gives new insights in the mechanism of iron transport in yeast / BONACCORSI DI PATTI, Maria Carmela; Pascarella, Stefano; D., Catalucci; Calabrese, Lilia. - In: PROTEIN ENGINEERING. - ISSN 0269-2139. - STAMPA. - 12:11(1999), pp. 895-897. [10.1093/protein/12.11.895]
Homology modeling of the multicopper oxidase Fet3 gives new insights in the mechanism of iron transport in yeast
BONACCORSI DI PATTI, Maria Carmela;PASCARELLA, Stefano;CALABRESE, Lilia
1999
Abstract
Fet3, the multicopper oxidase of yeast, oxidizes extracellular ferrous iron which is then transported into the cell through the permease Ftr1, A three-dimensional model structure of Fet3 has been derived by homology modeling, Fet3 consists of three cupredoxin domains joined by a trinuclear copper cluster which is connected to the blue copper site located in the third domain. Close to this site, which is the primary electron acceptor from the substrate, residues for a potential iron binding site could be identified. The surface disposition of negatively charged residues suggests that Fet3 can translocate Fe3+ to the permease Ftr1 through a pathway under electrostatic guidance.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
