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Ad hoc quantum chemical modeling of the acetyl-CoA synthase local structure and folding allowed us to identify an unprecedented coordination mode of histidine sidechain to protein-embedded metal ions. This journal is

Greco, C., Ciancetta, A., Bruschi, M., Kulesza, A., Moro, G., Cosentino, U. (2015). Influence of key amino acid mutation on the active site structure and on folding in acetyl-CoA synthase: A theoretical perspective. CHEMICAL COMMUNICATIONS, 51(40), 8551-8554 [10.1039/c5cc01575h].

Influence of key amino acid mutation on the active site structure and on folding in acetyl-CoA synthase: A theoretical perspective

GRECO, CLAUDIO
;BRUSCHI, MAURIZIO;MORO, GIORGIO;COSENTINO, UGO RENATO
2015

Abstract

Ad hoc quantum chemical modeling of the acetyl-CoA synthase local structure and folding allowed us to identify an unprecedented coordination mode of histidine sidechain to protein-embedded metal ions. This journal is
Articolo in rivista - Articolo scientifico
Dft, Acetyl-CoA synthase
English
2015
51
40
8551
8554
none
Greco, C., Ciancetta, A., Bruschi, M., Kulesza, A., Moro, G., Cosentino, U. (2015). Influence of key amino acid mutation on the active site structure and on folding in acetyl-CoA synthase: A theoretical perspective. CHEMICAL COMMUNICATIONS, 51(40), 8551-8554 [10.1039/c5cc01575h].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/80696
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