Understanding the chemistry of redox proteins demands methods that provide precise control over redox centers within the protein. The technique of protein film electrochemistry, in which a protein is immobilized on an electrode surface such that the electrode replaces physiological electron donors or acceptors, has provided functional insight into the redox reactions of a range of different proteins. Full chemical understanding requires electrochemical control to be combined with other techniques that can add additional structural and mechanistic insight. Here we demonstrate a technique, protein film infrared electrochemistry, which combines protein film electrochemistry with infrared spectroscopic sampling of redox proteins. The technique ...
Protein film electrochemistry (PFE) is providing cutting-edge insight into the chemical principles u...
As we know, the life on Earth depends significantly on the occurrence of reactions involving an exch...
This article reviews recent developments in spectroscopic analysis of electrode-immobilised enzymes ...
Understanding the chemistry of redox proteins demands methods that provide precise control over redo...
Understanding the chemistry of redox proteins demands methods that provide precise control over redo...
This thesis investigates the catalytic mechanism of NiFe hydrogenases. The specific enzyme studied ...
Biological electron transfer is fundamental to life on earth. Photosynthesis, respiration and many o...
Protein Film Electrochemistry (PFE) is a powerful suite of electroanalytical techniques used to inve...
Direct electrochemical methods have been productive in revealing mechanistic details of catalysis by...
We report a versatile infrared spectroscopic method for studying redox chemistry of metalloproteins,...
We demonstrate a novel in situ infrared spectroscopic approach for the characterization of hydrogena...
One of the most intriguing and important aspects of biological chemistry is how the deceptively simp...
A novel in situ IR spectroscopic approach is demonstrated for the characterization of hydrogenase du...
abstract: Redox reactions are crucial to energy transduction in biology. Protein film electrochemist...
Achieving a unified understanding of the mechanism of a multicenter redox enzyme such as [NiFe] hydr...
Protein film electrochemistry (PFE) is providing cutting-edge insight into the chemical principles u...
As we know, the life on Earth depends significantly on the occurrence of reactions involving an exch...
This article reviews recent developments in spectroscopic analysis of electrode-immobilised enzymes ...
Understanding the chemistry of redox proteins demands methods that provide precise control over redo...
Understanding the chemistry of redox proteins demands methods that provide precise control over redo...
This thesis investigates the catalytic mechanism of NiFe hydrogenases. The specific enzyme studied ...
Biological electron transfer is fundamental to life on earth. Photosynthesis, respiration and many o...
Protein Film Electrochemistry (PFE) is a powerful suite of electroanalytical techniques used to inve...
Direct electrochemical methods have been productive in revealing mechanistic details of catalysis by...
We report a versatile infrared spectroscopic method for studying redox chemistry of metalloproteins,...
We demonstrate a novel in situ infrared spectroscopic approach for the characterization of hydrogena...
One of the most intriguing and important aspects of biological chemistry is how the deceptively simp...
A novel in situ IR spectroscopic approach is demonstrated for the characterization of hydrogenase du...
abstract: Redox reactions are crucial to energy transduction in biology. Protein film electrochemist...
Achieving a unified understanding of the mechanism of a multicenter redox enzyme such as [NiFe] hydr...
Protein film electrochemistry (PFE) is providing cutting-edge insight into the chemical principles u...
As we know, the life on Earth depends significantly on the occurrence of reactions involving an exch...
This article reviews recent developments in spectroscopic analysis of electrode-immobilised enzymes ...
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