Supramolecular electrode assemblies for bioelectrochemistry

Abstract: Supramolecular approaches in bioelectrochemistry have boosted enzyme loading on electrodes and shaped biocompatible environments for enzymes.

“…Multiheme cytochromes display interesting catalytic properties, such as nitrite reduction or ammonia oxidation, involving intramolecular electron transfer steps that were extensively investigated. [29,71,[98][99][100] In particular, Raman resonance (RR) spectroscopy, surface enhanced resonance Raman spectroscopy (SERRS) and surfaceenhanced infrared spectroscopy (SEIRA) are very reliable techniques to this end. [87][88][89] In most cases, however, the protein is not used in the purified form, but the devices employ biofilms in which these proteins play a crucial role in extracellular electron transfer.…”

“…[30] For this reason, synthetic proteins obtained starting from myoglobin through side directed mutagenesis have been produced, which showed good electrocatalytic properties. [28,29,100] Two procedures result particularly efficient: the layer-by-layer assembly [36,[108][109][110][111][112][113][114][115][116] and the immobilization in lipid bilayer membranes. However, immobilization can induce more or less extended unfolding.…”

“…[92,93] Several immobilized heme proteins yield well-defined electrochemical and electrocatalytic responses. [100,[117][118][119] The most extensively used heme proteins for bioelectrocatalysis are mutated and unfolded cytochromes c, myoglobins, hemoglo-bins, peroxidases, catalases, cytochrome P450, microperoxidases (Table 1). In particular, heme b is partially or completely released from the protein in case the immobilization conditions are not appropriate: as a result, the protein loses its properties and the electrochemical response is due to a non-native form of the protein or to the heme group in solution.…”

“…It consists of a single polypeptide chain wrapped to form 8 alphahelixes. [29,30,71,76,94,100] Several procedures have been developed to retain the folding for the electrode-immobilized. In physiological conditions myoglobin contains a single ferrous heme b.…”

“…[28,29,[95][96][97] In these cases, spectroscopic measurements demonstrate the integrity of the protein immobilized on the electrode. [29,71,[98][99][100] In particular, Raman resonance (RR) spectroscopy, surface enhanced resonance Raman spectroscopy (SERRS) and surfaceenhanced infrared spectroscopy (SEIRA) are very reliable techniques to this end. [30,101,102] Such an approach is highly specific and sensitive and allows unambiguous assessment of the redox, coordination, and spin state of the heme group.…”

Electrocatalytic Properties of Immobilized Heme Proteins: Basic Principles and Applications

“…Multiheme cytochromes display interesting catalytic properties, such as nitrite reduction or ammonia oxidation, involving intramolecular electron transfer steps that were extensively investigated. [29,71,[98][99][100] In particular, Raman resonance (RR) spectroscopy, surface enhanced resonance Raman spectroscopy (SERRS) and surfaceenhanced infrared spectroscopy (SEIRA) are very reliable techniques to this end. [87][88][89] In most cases, however, the protein is not used in the purified form, but the devices employ biofilms in which these proteins play a crucial role in extracellular electron transfer.…”

“…[30] For this reason, synthetic proteins obtained starting from myoglobin through side directed mutagenesis have been produced, which showed good electrocatalytic properties. [28,29,100] Two procedures result particularly efficient: the layer-by-layer assembly [36,[108][109][110][111][112][113][114][115][116] and the immobilization in lipid bilayer membranes. However, immobilization can induce more or less extended unfolding.…”

“…[92,93] Several immobilized heme proteins yield well-defined electrochemical and electrocatalytic responses. [100,[117][118][119] The most extensively used heme proteins for bioelectrocatalysis are mutated and unfolded cytochromes c, myoglobins, hemoglo-bins, peroxidases, catalases, cytochrome P450, microperoxidases (Table 1). In particular, heme b is partially or completely released from the protein in case the immobilization conditions are not appropriate: as a result, the protein loses its properties and the electrochemical response is due to a non-native form of the protein or to the heme group in solution.…”

“…It consists of a single polypeptide chain wrapped to form 8 alphahelixes. [29,30,71,76,94,100] Several procedures have been developed to retain the folding for the electrode-immobilized. In physiological conditions myoglobin contains a single ferrous heme b.…”

“…[28,29,[95][96][97] In these cases, spectroscopic measurements demonstrate the integrity of the protein immobilized on the electrode. [29,71,[98][99][100] In particular, Raman resonance (RR) spectroscopy, surface enhanced resonance Raman spectroscopy (SERRS) and surfaceenhanced infrared spectroscopy (SEIRA) are very reliable techniques to this end. [30,101,102] Such an approach is highly specific and sensitive and allows unambiguous assessment of the redox, coordination, and spin state of the heme group.…”

Electrocatalytic Properties of Immobilized Heme Proteins: Basic Principles and Applications

In Situ and Operando Techniques for Investigating Electron Transfer in Biological Systems

Mimicking Photosystem I with a Transmembrane Light Harvester and Energy Transfer‐Induced Photoreduction in Phospholipid Bilayers