Add to ORKGi The purpose of this study is to demonstrate that stable lipid bilayers can be set up on an array of silicon micropores and can be used as sites for self-inserting ion-channel proteins which can be studied independently of each other. In course of this study an acrylic based holder was designed and machined to ensure leak-free fluidic access to the silicon micropores and physical isolation of the individual array channels. To measure the ion-channel currents, we simulated, designed and manufactured low-noise transimpedance amplifiers and support circuits based on published patch clamp amplifier designs, using currently available surface-mount components. This was done in order to achieve a reduction in size and costs as well as isolation o...
In recent years, protein array technologies have found widespread applications in proteomics. Howeve...
In the present paper we describe the preparation and characterization of reconstituted bilayer lipid...
A microfabricated silicon device for studying artificial lipid bilayer systems is described. The exp...
abstract: ABSTRACT The purpose of this study is to demonstrate that stable lipid bilayers can be s...
A silicon wafer with eight individually addressable microfabricated orifices was used for ion channe...
The ion flow through channel proteins embedded in a lipid bilayer membrane can be recorded as an ele...
none5Different electrophysiology setups allow single ion channel recordings using Lipid Bilayer Memb...
AbstractPainted bilayers containing reconstituted ion channels serve as a well defined model system ...
Painted bilayers containing reconstituted ion channels serve as a well defined model system for elec...
We describe a silicon chip-based supported bilayer system to detect the presence of ion channels and...
Gated ion channels are excitable nanopores in biological membranes. They sense and respond to differ...
Gated ion channels are excitable nanopores in biological membranes. They sense and respond to differ...
We present single-ion-channel recordings performed with biomimetic lipid membranes w...
We describe a scalable artificial bilayer lipid membrane platform for rapid electrophysiological scr...
In the present paper we describe the preparation and characterization of reconstituted bilayer lipid...
In recent years, protein array technologies have found widespread applications in proteomics. Howeve...
In the present paper we describe the preparation and characterization of reconstituted bilayer lipid...
A microfabricated silicon device for studying artificial lipid bilayer systems is described. The exp...
abstract: ABSTRACT The purpose of this study is to demonstrate that stable lipid bilayers can be s...
A silicon wafer with eight individually addressable microfabricated orifices was used for ion channe...
The ion flow through channel proteins embedded in a lipid bilayer membrane can be recorded as an ele...
none5Different electrophysiology setups allow single ion channel recordings using Lipid Bilayer Memb...
AbstractPainted bilayers containing reconstituted ion channels serve as a well defined model system ...
Painted bilayers containing reconstituted ion channels serve as a well defined model system for elec...
We describe a silicon chip-based supported bilayer system to detect the presence of ion channels and...
Gated ion channels are excitable nanopores in biological membranes. They sense and respond to differ...
Gated ion channels are excitable nanopores in biological membranes. They sense and respond to differ...
We present single-ion-channel recordings performed with biomimetic lipid membranes w...
We describe a scalable artificial bilayer lipid membrane platform for rapid electrophysiological scr...
In the present paper we describe the preparation and characterization of reconstituted bilayer lipid...
In recent years, protein array technologies have found widespread applications in proteomics. Howeve...
In the present paper we describe the preparation and characterization of reconstituted bilayer lipid...
A microfabricated silicon device for studying artificial lipid bilayer systems is described. The exp...