[HTML][HTML] Programming bulk enzyme heterojunctions for biosensor development with tetrahedral DNA framework
Protein-protein interactions are spatially regulated in living cells to realize high reaction
efficiency, as seen in naturally existing electron-transfer chains. Nevertheless, arrangement …
efficiency, as seen in naturally existing electron-transfer chains. Nevertheless, arrangement …
Assembly of non-natural electron transfer conduits in the cytochrome P450 system: a critical assessment and update of artificial redox constructs amenable to …
P Hlavica - Biotechnology advances, 2009 - Elsevier
The high plasticity of the active-site cavity of cytochromes P450, permitting reactivity toward
a vast array of compounds, makes these enzymes attractive targets for biotechnological …
a vast array of compounds, makes these enzymes attractive targets for biotechnological …
[HTML][HTML] Protein nanowires with tunable functionality and programmable self-assembly using sequence-controlled synthesis
DM Shapiro, G Mandava, SE Yalcin… - Nature …, 2022 - nature.com
Advances in synthetic biology permit the genetic encoding of synthetic chemistries at
monomeric precision, enabling the synthesis of programmable proteins with tunable …
monomeric precision, enabling the synthesis of programmable proteins with tunable …
Expansion of redox chemistry in designer metalloenzymes
Y Yu, X Liu, J Wang - Accounts of Chemical Research, 2019 - ACS Publications
Conspectus Many artificial enzymes that catalyze redox reactions have important energy,
environmental, and medical applications. Native metalloenzymes use a set of redox-active …
environmental, and medical applications. Native metalloenzymes use a set of redox-active …
Catechol-based capacitor for redox-linked bioelectronics
A common bioelectronics goal is to enable communication between biology and electronics,
and success is critically dependent on the communication modality. When a biorelevant …
and success is critically dependent on the communication modality. When a biorelevant …
Are Electrical Characterizations Consistent with the Cytochrome Structures of Geobacter'Nanowires'
MJ Guberman-Pfeffer - bioRxiv, 2023 - biorxiv.org
Electrically conductive filaments from Geobacter sulfurreducens were reported to be pili with
metallic-like conductivity, and yet were later shown to be redox-active cytochromes by …
metallic-like conductivity, and yet were later shown to be redox-active cytochromes by …
Biomolecular electronics
Building up efficient electronic nanodevices by profiting from nature optimized biomolecular
machinery is a clear challenge for today's scientific and engineering communities [1] …
machinery is a clear challenge for today's scientific and engineering communities [1] …
[HTML][HTML] Direct evidence for heme-assisted solid-state electronic conduction in multi-heme c-type cytochromes
Multi-heme cytochrome c (Cytc) proteins are key for transferring electrons out of cells, to
enable intracellular oxidation to proceed in the absence of O2. In these proteins most of the …
enable intracellular oxidation to proceed in the absence of O2. In these proteins most of the …
Charge transport at the protein–electrode interface in the emerging field of BioMolecular Electronics
The emerging field of BioMolecular Electronics aims to unveil the charge transport
characteristics of biomolecules with two primary outcomes envisioned. The first is to use …
characteristics of biomolecules with two primary outcomes envisioned. The first is to use …
Real-time environmental monitoring of contaminants using living electronic sensors
Real-time chemical sensing is needed to counter the global threats posed by pollution. We
combine synthetic biology and materials engineering to develop a living bioelectronic …
combine synthetic biology and materials engineering to develop a living bioelectronic …