Multilayered lipid membrane stacks for biocatalysis using membrane enzymes
Multilayered or stacked lipid membranes are a common principle in biology and have
various functional advantages compared to single‐lipid membranes, such as their ability to …
various functional advantages compared to single‐lipid membranes, such as their ability to …
Redox enzymes in tethered membranes
An electrode surface is presented that enables the characterization of redox-active
membrane enzymes in a native-like environment. An ubiquinol oxidase from Escherichia …
membrane enzymes in a native-like environment. An ubiquinol oxidase from Escherichia …
[HTML][HTML] Supramolecular electrode assemblies for bioelectrochemistry
T Laftsoglou, LJC Jeuken - Chemical Communications, 2017 - pubs.rsc.org
For more than three decades, the field of bioelectrochemistry has provided novel insights
into the catalytic mechanisms of enzymes, the principles that govern biological electron …
into the catalytic mechanisms of enzymes, the principles that govern biological electron …
Catalytically Active Silica Nanoparticle-Based Supramolecular Architectures of Two Proteins – Cellobiose Dehydrogenase and Cytochrome c on Electrodes
SC Feifel, R Ludwig, L Gorton, F Lisdat - Langmuir, 2012 - ACS Publications
Artificial nanobiomolecular architectures that follow natural examples in protein assembly
become more and more important from basic and applied points of view. Our study …
become more and more important from basic and applied points of view. Our study …
Hybrid bilayer membranes as platforms for biomimicry and catalysis
Hybrid bilayer membrane (HBM) platforms represent an emerging nanoscale bio-inspired
interface that has broad implications in energy catalysis and smart molecular devices. An …
interface that has broad implications in energy catalysis and smart molecular devices. An …
Enzyme‐assisted nanoscale lithography in lipid membranes
H Clausen‐Schaumann, M Grandbois… - Advanced …, 1998 - Wiley Online Library
Combining biological tools with nanotechnology: The use of a lipolytic enzyme together with
an atomic force microscope to locally hydrolyze supported phospholipid membranes is …
an atomic force microscope to locally hydrolyze supported phospholipid membranes is …
[HTML][HTML] Electrochemical biosensors based on membrane-bound enzymes in biomimetic configurations
J Alvarez-Malmagro, G García-Molina… - Sensors, 2020 - mdpi.com
In nature, many enzymes are attached or inserted into the cell membrane, having
hydrophobic subunits or lipid chains for this purpose. Their reconstitution on electrodes …
hydrophobic subunits or lipid chains for this purpose. Their reconstitution on electrodes …
[PDF][PDF] Converting molecular monolayers into functional membranes
D Anselmetti, A Gölzhäuser - Angew. Chem., Int. Ed, 2014 - academia.edu
Nanomembranes are extremely thin (< 5–10 nm), synthetic two-dimensional (2D) layers or
sheets with tailored physical, chemical, or biological functions. With their two opposing …
sheets with tailored physical, chemical, or biological functions. With their two opposing …
Engineering the composition of heterogeneous lipid bilayers to stabilize tethered enzymes
AF Chaparro Sosa, KJ Black, DF Kienle… - Advanced Materials …, 2020 - Wiley Online Library
As surfaces for enzyme immobilization, lipid bilayers (LBs) have the potential to exhibit
chaperone‐like activity, which can greatly enhance enzyme stability. Here, it is shown that …
chaperone‐like activity, which can greatly enhance enzyme stability. Here, it is shown that …
[HTML][HTML] Lipid-nanostructure hybrids and their applications in nanobiotechnology
Cell membranes contain a variety of lipids and functional proteins that offer active platforms
that organize the membrane components into functional assemblies and perform …
that organize the membrane components into functional assemblies and perform …