Role of the electronic properties of azurin active site in the electron-transfer process (original) (raw)
Electron Transfer Proteins as Electronic Conductors: Significance of the Metal and Its Binding Site in the Blue Cu Protein, Azurin
Israel Pecht
Advanced Science, 2015
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Ab initio electronic structure calculations of entire blue copper azurins
Linda A . Zotti
PCCP, 2018
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Electronic structure contributions to function in bioorganic chemistry: The blue copper active site
David Randall
Pure and Applied Chemistry, 1998
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Electronic structure and its relation to function in copper proteins
Robert Szilagyi
Current Opinion in Chemical Biology, 2002
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Role of the Surface-Exposed and Copper-Coordinating Histidine in Blue Copper Proteins: The Electron-Transfer and Redox-Coupled Ligand Binding Properties of His117Gly Azurin
James McEvoy
Journal of The American Chemical Society, 2000
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Fundamental signatures of short-and long-range electron transfer for the blue copper protein azurin at Au/SAM junctions
Rudi Van Eldik
Proceedings of the …, 2010
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Structure-function correlation of intramolecular electron transfer in wild type and single-site mutated azurins
Gianfranco Gilardi
Chemical Physics, 1996
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Electronic structure of the oxidized and reduced blue copper sites: contributions to the electron transfer pathway, reduction potential, and geometry
Susan Shadle
Inorganica Chimica Acta, 1996
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Marked changes in electron transport through the blue copper protein azurin in the solid state upon deuteration
Israel Pecht
Proceedings of the National Academy of Sciences, 2012
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The effect of driving force on intramolecular electron transfer in proteins. Studies on single-site mutated azurins
Mart Van de Kamp
European Journal of Biochemistry, 1992
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Ordered Assembly and Controlled Electron Transfer of the Blue Copper Protein Azurin at Gold (111) Single-Crystal Substrates
Qijin Chi
The Journal of Physical Chemistry B, 2001
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First-principles density-functional theory calculations of electron-transfer rates in azurin dimers
Elisa MOLINARI
The Journal of Chemical Physics, 2006
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Tunneling matrix element in Ru-modified blue copper proteins: pruning the protein in search of electron transfer pathways
Alexei Stuchebrukhov
Inorganica Chimica Acta, 1996
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Electronic structure contributions to electron transfer in blue Cu and Cu A
David Randall
Journal of Biological Inorganic Chemistry, 2000
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Role of protein frame and solvent for the redox properties of azurin from Pseudomonas aeruginosa
Alessandra Magistrato
Proceedings of The National Academy of Sciences, 2006
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Water Effects on Electron Transfer in Azurin Dimers
Elisa MOLINARI
The Journal of Physical Chemistry B, 2006
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Spectroscopy of Mixed-Valence Cu A -Type Centers: Ligand-Field Control of Ground-State Properties Related to Electron Transfer
Gerard Canters
Journal of the American Chemical Society, 1998
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Calculation of the Redox Potential of the Protein Azurin and Some Mutants
Gerard Canters
ChemBioChem, 2005
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Kinetics of outer-sphere electron transfer reactions involving synthetic models of copper ?blue"? proteins
Peter Strizhak
Theoretical and Experimental Chemistry, 1994
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Density-functional calculations of the Cu, Zn superoxide dismutase redox potential: The influence of active site distortion
Ricardo Branco
Journal of Molecular Structure-theochem, 2005
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The axial methionine ligand may control the redox reorganizations in the active site of blue copper proteins
Koji Ando
The Journal of Chemical Physics, 2010
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Designed azurins show lower reorganization free energies for intraprotein electron transfer
Israel Pecht
Proceedings of the National Academy of Sciences, 2013
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Electron tunnelling through azurin is mediated by the active site Cu ion
Paolo Facci
Chemical Physics Letters, 2003
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Electronic Structures of Active Sites in Copper Proteins and Their Contributions to Reactivity
Brooke Hemming
Advances in chemistry series, 1996
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Electronic and Photophysical Properties of Re (L)(CO)3(phen) and Ru(L)2(bpy)2 (L = imidazole), Building Units for Long-Range Electron Transfer in Modified Blue Copper Proteins
Germán Günther
The journal of physical chemistry. A, 2016
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Quantum Chemical Study of Axial Ligand Effect on the Electronic Properties of Type I Copper Protein
Kimikazu Sugimori
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Surface Immobilized His-tagged Azurin as a Model Interface for the Investigation of Vectorial Electron Transfer in Biological Systems
Stefano Casalini
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Quantum chemical calculations of the reorganization energy of blue-copper proteins
Ulf Ryde
Protein Science - PROTEIN SCI, 1998
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Mechanical Deformation and Electronic Structure of a Blue Copper Azurin in a Solid-State Junction
Linda A . Zotti
Biomolecules, 2019
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