Add to ORKGSynthetic lipid bilayers provide models of cell membranes to study biomolecular interactions and signal transduction. The droplet interface bilayer (DIB) is a highly versatile technique for assembling planar lipid membranes between water droplets in oil. The DIB method thus provides a unique capability for developing digital, droplet-based membrane platforms for rapid membrane characterization, drug screening and ion channel recordings. In this work, a new microfluidic system is presented that automates droplet generation, sorting, and sequential trapping in designated locations to enable rapid assembly of arrays of DIBs along with in situ electrical measurements. This platform provides repeatable processes for forming long-lasting bilayer ...
In cell membranes, the lipid compositions of the inner and outer leaflets differ. Therefore, a robus...
A microfluidic platform is reported for various experimentation schemes on cell membrane models and ...
We present a simple method for the multiplexed formation of droplet interface bilayers (DIBs) using ...
Whilst it is highly desirable to produce artificial lipid bilayer arrays allowing for systematic hig...
Basic biophysical studies and pharmacological processes can be investigated by mimicking the intrace...
This work describes research aimed at improving the droplet interface bilayer (DIB) platform for cre...
Understanding how drug molecules interact with our body and what effects they may induce as a result...
The ability to form artificial lipid membranes in a reliable, high-throughput lab-on-a-chip format h...
The ability to make artificial lipid bilayers compatible with a wide range of environments, and with...
The design of membrane-based constructs with multiple compartments is of increasing importance given...
Droplet-interface bilayers (DIBs) have been developed as a miniature model membrane system with dist...
Droplet lipid bilayers have been shown to be robust platforms for studying membrane proteins in a hi...
We investigated the permeation of molecules across lipid membranes on an open microfluidic platform....
Investigations into characterising and measuring bio-membrane permeability have been ongoing for ov...
Networks of droplets, in which aqueous compartments are separated by lipid bilayers, have shown grea...
In cell membranes, the lipid compositions of the inner and outer leaflets differ. Therefore, a robus...
A microfluidic platform is reported for various experimentation schemes on cell membrane models and ...
We present a simple method for the multiplexed formation of droplet interface bilayers (DIBs) using ...
Whilst it is highly desirable to produce artificial lipid bilayer arrays allowing for systematic hig...
Basic biophysical studies and pharmacological processes can be investigated by mimicking the intrace...
This work describes research aimed at improving the droplet interface bilayer (DIB) platform for cre...
Understanding how drug molecules interact with our body and what effects they may induce as a result...
The ability to form artificial lipid membranes in a reliable, high-throughput lab-on-a-chip format h...
The ability to make artificial lipid bilayers compatible with a wide range of environments, and with...
The design of membrane-based constructs with multiple compartments is of increasing importance given...
Droplet-interface bilayers (DIBs) have been developed as a miniature model membrane system with dist...
Droplet lipid bilayers have been shown to be robust platforms for studying membrane proteins in a hi...
We investigated the permeation of molecules across lipid membranes on an open microfluidic platform....
Investigations into characterising and measuring bio-membrane permeability have been ongoing for ov...
Networks of droplets, in which aqueous compartments are separated by lipid bilayers, have shown grea...
In cell membranes, the lipid compositions of the inner and outer leaflets differ. Therefore, a robus...
A microfluidic platform is reported for various experimentation schemes on cell membrane models and ...
We present a simple method for the multiplexed formation of droplet interface bilayers (DIBs) using ...