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Geometrical and electrophysiological data of the moving membrane method for the osmotic water permeability of a lipid bilayer

Data of the osmotic water permeability of a lipid bilayer (diphytanoylphosphaticylcholin) in the presence of cholesterol (30 mole%) are shown under the simultaneous measurement of bilayer tension. Detailed methods and procedures for evaluating the water permeability using the moving membrane method...

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Autores principales: Yano, Keita, Iwamoto, Masayuki, Koshiji, Takaaki, Oiki, Shigetoshi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8405959/
https://www.ncbi.nlm.nih.gov/pubmed/34485640
http://dx.doi.org/10.1016/j.dib.2021.107309
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author Yano, Keita
Iwamoto, Masayuki
Koshiji, Takaaki
Oiki, Shigetoshi
author_facet Yano, Keita
Iwamoto, Masayuki
Koshiji, Takaaki
Oiki, Shigetoshi
author_sort Yano, Keita
collection PubMed
description Data of the osmotic water permeability of a lipid bilayer (diphytanoylphosphaticylcholin) in the presence of cholesterol (30 mole%) are shown under the simultaneous measurement of bilayer tension. Detailed methods and procedures for evaluating the water permeability using the moving membrane method (K. Yano, M. Iwamoto, T. Koshiji & S. Oiki: Visualizing the Osmotic Water Permeability of a Lipid Bilayer under Measured Bilayer Tension Using a Moving Membrane Method. Journal of Membrane Science, 627 (2021) 119231) are presented. The planar lipid bilayer is formed in a glass capillary, separating two aqueous compartments with different osmolarities, and osmotically-driven water flux is visualized as membrane movements along the capillary. The water permeability was evaluated under constant membrane area and tension after correcting for the unstirred layer effect. In these measurements, geometrical features, such as the edge of the planar lipid bilayer and the contact angle between bilayer and monolayer, were image-analyzed. The unstirred layer was evaluated electrophysiologically, in which gramicidin A channel was employed. In the presence of an osmotic gradient, the gramicidin channel generates the streaming potential, and the measured streaming potential data and the derived water-ion coupling ratio (water flux/ion flux) are shown. Detailed descriptions of the integrated method of the moving membrane allow researchers to reproduce the experiment and give opportunities to examine water permeability of various types of membranes, including those containing aquaporins. The present data of osmotic water permeability are compared with the previously published data, while they neglected the bilayer tension.
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spelling pubmed-84059592021-09-02 Geometrical and electrophysiological data of the moving membrane method for the osmotic water permeability of a lipid bilayer Yano, Keita Iwamoto, Masayuki Koshiji, Takaaki Oiki, Shigetoshi Data Brief Data Article Data of the osmotic water permeability of a lipid bilayer (diphytanoylphosphaticylcholin) in the presence of cholesterol (30 mole%) are shown under the simultaneous measurement of bilayer tension. Detailed methods and procedures for evaluating the water permeability using the moving membrane method (K. Yano, M. Iwamoto, T. Koshiji & S. Oiki: Visualizing the Osmotic Water Permeability of a Lipid Bilayer under Measured Bilayer Tension Using a Moving Membrane Method. Journal of Membrane Science, 627 (2021) 119231) are presented. The planar lipid bilayer is formed in a glass capillary, separating two aqueous compartments with different osmolarities, and osmotically-driven water flux is visualized as membrane movements along the capillary. The water permeability was evaluated under constant membrane area and tension after correcting for the unstirred layer effect. In these measurements, geometrical features, such as the edge of the planar lipid bilayer and the contact angle between bilayer and monolayer, were image-analyzed. The unstirred layer was evaluated electrophysiologically, in which gramicidin A channel was employed. In the presence of an osmotic gradient, the gramicidin channel generates the streaming potential, and the measured streaming potential data and the derived water-ion coupling ratio (water flux/ion flux) are shown. Detailed descriptions of the integrated method of the moving membrane allow researchers to reproduce the experiment and give opportunities to examine water permeability of various types of membranes, including those containing aquaporins. The present data of osmotic water permeability are compared with the previously published data, while they neglected the bilayer tension. Elsevier 2021-08-18 /pmc/articles/PMC8405959/ /pubmed/34485640 http://dx.doi.org/10.1016/j.dib.2021.107309 Text en © 2021 The Author(s) https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Data Article
Yano, Keita
Iwamoto, Masayuki
Koshiji, Takaaki
Oiki, Shigetoshi
Geometrical and electrophysiological data of the moving membrane method for the osmotic water permeability of a lipid bilayer
title Geometrical and electrophysiological data of the moving membrane method for the osmotic water permeability of a lipid bilayer
title_full Geometrical and electrophysiological data of the moving membrane method for the osmotic water permeability of a lipid bilayer
title_fullStr Geometrical and electrophysiological data of the moving membrane method for the osmotic water permeability of a lipid bilayer
title_full_unstemmed Geometrical and electrophysiological data of the moving membrane method for the osmotic water permeability of a lipid bilayer
title_short Geometrical and electrophysiological data of the moving membrane method for the osmotic water permeability of a lipid bilayer
title_sort geometrical and electrophysiological data of the moving membrane method for the osmotic water permeability of a lipid bilayer
topic Data Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8405959/
https://www.ncbi.nlm.nih.gov/pubmed/34485640
http://dx.doi.org/10.1016/j.dib.2021.107309
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