An artificial lipid bilayer formed on a PEG-coated glass for simultaneous electrical and optical measurement of single ion-channels

Toru Ide; Yuko Takeuchi; Takaaki Aoki; Kazuhito Tabata; Hiroyuki Noji

doi:10.1380/ejssnt.2005.70

An artificial lipid bilayer formed on a PEG-coated glass for simultaneous electrical and optical measurement of single ion-channels

Toru Ide, Yuko Takeuchi, Takaaki Aoki, Kazuhito Tabata, Hiroyuki Noji

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

The purpose of this study is to develop an apparatus for simultaneous measurement of electrical and spectroscopic parameters of single ion-channels. We have combined the single channel recording apparatus with an artificial lipid bilayer and a fluorescence microscope designed to detect single fluorescent molecules. The artificial membranes were formed on a PEG (polyethylene glycol)-coated glass and observed with an objective-type total internal reflection fluorescence (TIRF) microscope. The lateral motion of a single lipid molecule (β-BODIPY 530/550 HPC) was recorded. The lateral diffusion constant of the lipid molecule was calculated from the trajectories of single molecules as D = 8.0 ± 4.0 × 10^-8 cm²/s. Ionic channels were incorporated into the membrane and single-channel current fluctuations were recorded. These data show the possibility of the present technique for simultaneous measurement of electrical and spectroscopic parameters of single-channel activities

Original language	English
Journal	e-Journal of Surface Science and Nanotechnology
Volume	3
DOIs	https://doi.org/10.1380/ejssnt.2005.70
Publication status	Published - Feb 25 2005
Externally published	Yes

Keywords

BK-channel
Biological molecules -proteins
Biophysics, medical physics, biomedical engineering
Ion channel
Single molecule imaging

ASJC Scopus subject areas

Biotechnology
Bioengineering
Condensed Matter Physics
Mechanics of Materials
Surfaces and Interfaces
Surfaces, Coatings and Films

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title = "An artificial lipid bilayer formed on a PEG-coated glass for simultaneous electrical and optical measurement of single ion-channels",

abstract = "The purpose of this study is to develop an apparatus for simultaneous measurement of electrical and spectroscopic parameters of single ion-channels. We have combined the single channel recording apparatus with an artificial lipid bilayer and a fluorescence microscope designed to detect single fluorescent molecules. The artificial membranes were formed on a PEG (polyethylene glycol)-coated glass and observed with an objective-type total internal reflection fluorescence (TIRF) microscope. The lateral motion of a single lipid molecule (β-BODIPY 530/550 HPC) was recorded. The lateral diffusion constant of the lipid molecule was calculated from the trajectories of single molecules as D = 8.0 ± 4.0 × 10-8 cm2/s. Ionic channels were incorporated into the membrane and single-channel current fluctuations were recorded. These data show the possibility of the present technique for simultaneous measurement of electrical and spectroscopic parameters of single-channel activities",

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author = "Toru Ide and Yuko Takeuchi and Takaaki Aoki and Kazuhito Tabata and Hiroyuki Noji",

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T1 - An artificial lipid bilayer formed on a PEG-coated glass for simultaneous electrical and optical measurement of single ion-channels

AU - Ide, Toru

AU - Takeuchi, Yuko

AU - Aoki, Takaaki

AU - Tabata, Kazuhito

AU - Noji, Hiroyuki

PY - 2005/2/25

Y1 - 2005/2/25

N2 - The purpose of this study is to develop an apparatus for simultaneous measurement of electrical and spectroscopic parameters of single ion-channels. We have combined the single channel recording apparatus with an artificial lipid bilayer and a fluorescence microscope designed to detect single fluorescent molecules. The artificial membranes were formed on a PEG (polyethylene glycol)-coated glass and observed with an objective-type total internal reflection fluorescence (TIRF) microscope. The lateral motion of a single lipid molecule (β-BODIPY 530/550 HPC) was recorded. The lateral diffusion constant of the lipid molecule was calculated from the trajectories of single molecules as D = 8.0 ± 4.0 × 10-8 cm2/s. Ionic channels were incorporated into the membrane and single-channel current fluctuations were recorded. These data show the possibility of the present technique for simultaneous measurement of electrical and spectroscopic parameters of single-channel activities

AB - The purpose of this study is to develop an apparatus for simultaneous measurement of electrical and spectroscopic parameters of single ion-channels. We have combined the single channel recording apparatus with an artificial lipid bilayer and a fluorescence microscope designed to detect single fluorescent molecules. The artificial membranes were formed on a PEG (polyethylene glycol)-coated glass and observed with an objective-type total internal reflection fluorescence (TIRF) microscope. The lateral motion of a single lipid molecule (β-BODIPY 530/550 HPC) was recorded. The lateral diffusion constant of the lipid molecule was calculated from the trajectories of single molecules as D = 8.0 ± 4.0 × 10-8 cm2/s. Ionic channels were incorporated into the membrane and single-channel current fluctuations were recorded. These data show the possibility of the present technique for simultaneous measurement of electrical and spectroscopic parameters of single-channel activities

KW - BK-channel

KW - Biological molecules -proteins

KW - Biophysics, medical physics, biomedical engineering

KW - Ion channel

KW - Single molecule imaging

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An artificial lipid bilayer formed on a PEG-coated glass for simultaneous electrical and optical measurement of single ion-channels

Abstract

Keywords

ASJC Scopus subject areas

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