Ionophore-mediated transmembrane movement of divalent cations in small unilamellar liposomes: an evaluation of the chlortetracycline fluorescence technique and correlations with black lipid membrane studies

Mathew, M. K. ; Nagaraj, R. ; Balaram, P. (1982) Ionophore-mediated transmembrane movement of divalent cations in small unilamellar liposomes: an evaluation of the chlortetracycline fluorescence technique and correlations with black lipid membrane studies Journal of Membrane Biology, 65 (1-2). pp. 13-17. ISSN 0022-2631

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Official URL: http://www.springerlink.com/content/tm463x01257334...

Related URL: http://dx.doi.org/10.1007/BF01870464

Abstract

Conceptual advances in the field of membrane transport have, in the main, utilized artificial membranes, both planar and vesicular. Systems of biological interest, viz., cells and organelles, resemble vesicles in size and geometry. Methods are, therefore, required to extend the results obtained with planar membranes to liposome systems. In this report we present an analysis of a fluorescence technique, using the divalent cation probe chlortetracycline, in small, unilamellar vesicles, for the study of divalent cation fluxes. An ion carrier (X537 A) and a pore former (alamethicin) have been studied. The rate of rise of fluorescence signal and the transmembrane ion gradient have been related to transmembrane current and potential, respectively. A second power dependence of ion conduction-including the electrically silent portion thereof - on X537 A concentration, has been observed. An exponential dependence of "current" on "transmembrane potential" in the case of alamethicin is also confirmed. Possible errors in the technique are discussed.

Item Type:Article
Source:Copyright of this article belongs to Springer-Verlag.
Keywords:Membrane-transport; Fluorescence; Chlortetracycline; X537 A; Alamethicin; Ionophore; Liposome
ID Code:4756
Deposited On:18 Oct 2010 06:48
Last Modified:16 May 2016 15:22

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