Electrophoretic behavior of cerebellar granule neurons

Jyh Ping Hsu; Shih Wei Huang; Tien Shiang Hsieh; Tai Horng Young; Wei Wen Hu

doi:10.1002/1522-2683(200207)23:13<2001::AID-ELPS2001>3.0.CO;2-5

Electrophoretic behavior of cerebellar granule neurons

Jyh Ping Hsu, Shih Wei Huang, Tien Shiang Hsieh, Tai Horng Young, Wei Wen Hu

Department of Chemical and Materials Engineering

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

13 Scopus citations

Abstract

The electrophoresis of cerebellar granule neurons is observed, and a theoretical model proposed to simulate its electrophoretic behavior. We assume that the surface of a neuronal cell carries dissociable acidic functional groups, and the liquid phase contains a mixed (a:b) + (c:b) electrolyte, where a and c are the valences of cations and b is the valence of anions. The cations of valence c are allowed to bind to dissociated functional groups. The model proposed is readily applicable to the prediction of the surface properties of cerebellar granule neurons such as the density of dissociable functional groups and the equilibrium constant of the dissociation reaction. The applicability of the present model is justified by fitting it to the measured electrophoretic mobility data.

Original language	English
Pages (from-to)	2001-2006
Number of pages	6
Journal	Electrophoresis
Volume	23
Issue number	13
DOIs	https://doi.org/10.1002/1522-2683(200207)23:13<2001::AID-ELPS2001>3.0.CO;2-5
State	Published - 2002

Keywords

Cerebellar granule neurons
Electrophoretic mobility
Ion-binding
Surface dissociation reaction
Surface properties

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10.1002/1522-2683(200207)23:13<2001::AID-ELPS2001>3.0.CO;2-5

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title = "Electrophoretic behavior of cerebellar granule neurons",

abstract = "The electrophoresis of cerebellar granule neurons is observed, and a theoretical model proposed to simulate its electrophoretic behavior. We assume that the surface of a neuronal cell carries dissociable acidic functional groups, and the liquid phase contains a mixed (a:b) + (c:b) electrolyte, where a and c are the valences of cations and b is the valence of anions. The cations of valence c are allowed to bind to dissociated functional groups. The model proposed is readily applicable to the prediction of the surface properties of cerebellar granule neurons such as the density of dissociable functional groups and the equilibrium constant of the dissociation reaction. The applicability of the present model is justified by fitting it to the measured electrophoretic mobility data.",

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AU - Hsu, Jyh Ping

AU - Huang, Shih Wei

AU - Hsieh, Tien Shiang

AU - Young, Tai Horng

AU - Hu, Wei Wen

PY - 2002

Y1 - 2002

N2 - The electrophoresis of cerebellar granule neurons is observed, and a theoretical model proposed to simulate its electrophoretic behavior. We assume that the surface of a neuronal cell carries dissociable acidic functional groups, and the liquid phase contains a mixed (a:b) + (c:b) electrolyte, where a and c are the valences of cations and b is the valence of anions. The cations of valence c are allowed to bind to dissociated functional groups. The model proposed is readily applicable to the prediction of the surface properties of cerebellar granule neurons such as the density of dissociable functional groups and the equilibrium constant of the dissociation reaction. The applicability of the present model is justified by fitting it to the measured electrophoretic mobility data.

AB - The electrophoresis of cerebellar granule neurons is observed, and a theoretical model proposed to simulate its electrophoretic behavior. We assume that the surface of a neuronal cell carries dissociable acidic functional groups, and the liquid phase contains a mixed (a:b) + (c:b) electrolyte, where a and c are the valences of cations and b is the valence of anions. The cations of valence c are allowed to bind to dissociated functional groups. The model proposed is readily applicable to the prediction of the surface properties of cerebellar granule neurons such as the density of dissociable functional groups and the equilibrium constant of the dissociation reaction. The applicability of the present model is justified by fitting it to the measured electrophoretic mobility data.

KW - Cerebellar granule neurons

KW - Electrophoretic mobility

KW - Ion-binding

KW - Surface dissociation reaction

KW - Surface properties

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U2 - 10.1002/1522-2683(200207)23:13<2001::AID-ELPS2001>3.0.CO;2-5

DO - 10.1002/1522-2683(200207)23:13<2001::AID-ELPS2001>3.0.CO;2-5

M3 - 期刊論文

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EP - 2006

JO - Electrophoresis

JF - Electrophoresis

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Electrophoretic behavior of cerebellar granule neurons

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