Supported planar lipid bilayers (s-BLMs) as electrochemical biosensors

Abstract This paper presents a description of current research on the use of metal and hydrogel supported bilayer lipid membranes (s-BLMs and sb-BLMs) in the area of biosensor development. Simple and straight-forward experimental techniques for making these types of probes are given in some details. Emphasis is placed on the potential applications of these planar lipid bilayer-based probes. Among the topics covered include ion sensors, antigen–antibody interactions via electrical detection, probes for molecular species, supported BLMs doped with fullerenes and photoelectric effects in C 60 -containing BLMs.

[1]  C. A. Hasselbacher,et al.  Use of an oriented transmembrane protein to probe the assembly of a supported phospholipid bilayer. , 1994, Biophysical journal.

[2]  H. Radecka,et al.  Potentiometric determination of selective interaction of odorants on black lipid membranes , 1997 .

[3]  H. Ti Tien,et al.  Bilayer lipid membranes (BLM) : theory and practice , 1974 .

[4]  U. Krull Planar artificial biomembranes optimized for biochemical assay , 1987 .

[5]  D. Nikolelis,et al.  Ammonium ion minisensors form self-assembled bilayer lipid membranes using gramicidin as an ionophore. Modulation of ammonium selectivity by platelet-activating factor. , 1996, Analytical chemistry.

[6]  D. Nikolelis,et al.  Evaluation of a glassy carbon electrode modified by a bilayer lipid membrane with incorporated DNA. , 1996, Talanta.

[7]  Z. Salamon,et al.  Lipid bilayer-based sensors and biomolecular electronics. , 1991, Critical reviews in biomedical engineering.

[8]  J. Mountz,et al.  PHOTOEFFECTS OF PIGMENTED LIPID MEMBRANES IN A MICROPOROUS FILTER , 1978 .

[9]  M. Šnejdárková,et al.  Application of biotin-streptavidin technology in developing a xanthine biosensor based on a self-assembled phospholipid membrane. , 1994, Biosensors & bioelectronics.

[10]  H. Tien Bilayer lipid membrane‐based electrochemical biosensors , 1988 .

[11]  H. Shiku,et al.  Electron transfer at a planar bilayer lipid membrane incorporated with 7,7,8,8-tetracyanoquinodimethane studied by a.c. impedance spectroscopy , 1993 .

[12]  M. Šnejdárková,et al.  Electrostriction of biotin-streptavidin-modified bilayer lipid membranes on a metal support , 1996 .

[13]  D. Sargent,et al.  Comparative analysis of the methods for measurement of membrane surface potential of planar lipid bilayers , 1994 .

[14]  Masayuki Uto,et al.  Stability of an Agar-Supported Bilayer Lipid Membrane and Its Application to a Chemical Sensor , 1994 .

[15]  H. Gaub,et al.  Painted supported lipid membranes. , 1993, Biophysical journal.

[16]  L. Dei,et al.  Effect of halothane on the electrical properties of mixed bilayers of glycerol monooleate andl,α-dipalmitoylphosphatidylcholine , 1995 .

[17]  Y. Umezawa,et al.  Comparative Study on the Potentiometric Responses between a Valinomycin-Based Bilayer Lipid Membrane and a Solvent Polymeric Membrane , 1991 .

[18]  Irving Langmuir,et al.  THE CONSTITUTION AND FUNDAMENTAL PROPERTIES OF SOLIDS AND LIQUIDS. II. LIQUIDS.1 , 1917 .

[19]  H. Nakanishi,et al.  Characterization of the preparation process and the photochemical control of electrical properties of bilayer lipid membranes containing azobenzene chromophores. , 1993, Biochimica et biophysica acta.

[20]  Jerome S. Schultz,et al.  Handbook of Chemical and Biological Sensors , 1996 .

[21]  M. Šnejdárková,et al.  Hydrogen peroxide/oxygen biosensor based on supported phospholipid bilayer , 1992 .

[22]  H. Tien,et al.  Spontaneous assembly of bilayer membranes on a solid surface , 1991 .

[23]  Z. Salamon,et al.  Direct electrochemistry of thioredoxins and glutathione at a lipid bilayer-modified electrode. , 1992, Archives of biochemistry and biophysics.

[24]  Dimitrios P. Nikolelis,et al.  Bilayer lipid membranes for electrochemical sensing , 1993 .

[25]  A. Mackie,et al.  Lateral diffusion in planar lipid bilayers: a fluorescence recovery after photobleaching investigation of its modulation by lipid composition, cholesterol, or alamethicin content and divalent cations. , 1996, Biophysical journal.

[26]  D. Pum,et al.  S-layer stabilized solid support lipid bilayers. , 1997, Journal of structural biology.

[27]  T. Hianik,et al.  Electrostriction of lipid bilayers on a solid support. Influence of hydrocarbon solvent and d.c. voltage , 1993 .

[28]  H. Gaub,et al.  Immobilization of enzymes on Langmuir-Blodgett films via a membrane-bound receptor. Possible applications for amperometric biosensors , 1991 .

[29]  Byung Hong Kim,et al.  Electrode reaction of Desulfovibrio desulfuricans modified with organic conductive compounds , 1997 .

[30]  G. Dryhurst,et al.  Redox Chemistry and Interfacial Behavior of Biological Molecules , 1988, Springer US.

[31]  H. Monbouquette,et al.  Direct electron transfer to Escherichia coli fumarate reductase in self-assembled alkanethiol monolayers on gold electrodes , 1993 .

[32]  V. I. Passechnik,et al.  Electrostriction and membrane potential of lipid bilayers on a metal support , 1996 .

[33]  Z. Salamon,et al.  Lead ion sensitive electrode based on a supported BLM system , 1991 .

[34]  H. Terada,et al.  Stable phospholipid membrane supported on porous filter paper. , 1987, Biochemical and biophysical research communications.

[35]  H. Tien,et al.  Biophysical aspects of agar-gel supported bilayer lipid nembranes: a new method for forming and studying planar bilayer lipid membranes , 1996 .

[36]  D. Sargent,et al.  Glucose minisensor based on self-assembled biotinylated phospholipid membrane on a solid support and its physical properties , 1997 .

[37]  D. O. Rudin,et al.  Reconstitution of Cell Membrane Structure in vitro and its Transformation into an Excitable System , 1962, Nature.

[38]  Vladimir Tvarozek,et al.  Self-assembled BLMs: biomembrane models and biosensor applications , 1997 .

[39]  Huipin Yuan,et al.  An agarose-stabilized BLM: a new method for forming bilayer lipid membranes , 1996 .

[40]  H. Ti Tien,et al.  Cyclic voltammetry studies of bilayer lipid membranes deposited on platinum by self assembly , 1990 .

[41]  Z. Salamon,et al.  Direct electrochemistry of spinach plastocyanin at a lipid bilayer-modified electrode: cyclic voltammetry as a probe of membrane-protein interactions. , 1992, Archives of biochemistry and biophysics.

[42]  H. Tien,et al.  Immobilization of ferrocene on a BLM system : an amperometric sensor of Fe(CN)6-3/-4 ions , 1993 .

[43]  Helmut Ringsdorf,et al.  Coupling of proton translocation through ATPase incorporated into supported lipid bilayers to an electrochemical process , 1997 .

[44]  B. Cornell,et al.  A biosensor that uses ion-channel switches , 1997, Nature.

[45]  K. Kontturi,et al.  Potential Dependence of Transmembrane Electron Transfer across Phospholipid Bilayers Mediated by Ubiquinone 10 , 1996 .

[46]  L. Cun,et al.  Platinum-supported Bilayer Lipid Membranes modified by ferrocene and its derivatives , 1992 .

[47]  H. Tien,et al.  Electronic processes in supported bilayer lipid membranes (s-BLMs) containing a geodesic form of carbon (fullerene C60) , 1997 .

[48]  P. Krysiński,et al.  Three-probe voltammetric characterisation of octadecanethiol self-assembled monolayer integrity on gold electrodes , 1997 .

[49]  H. T. Tien,et al.  A combined AC-DC method for investigating supported bilayer lipid membranes , 1997 .

[50]  Z. Salamon,et al.  A self-assembled pigmented BLM on a platinum support: the light-induced electrical effects. , 1991, General physiology and biophysics.

[51]  Z. Salamon,et al.  Reduction of cytochrome c at a lipid bilayer modified electrode , 1991 .

[52]  H. Tien,et al.  ELECTROCHEMICAL TRANSDUCTION OF AN IMMUNOLOGICAL REACTION VIA S-BLMS , 1995 .

[53]  R. Rolandi,et al.  Photovoltage generation in bilayer lipid membrane-cadmium sulfide junctions , 1992 .

[54]  H. Tien Cyclic voltammetry of bilayer lipid membranes , 1984 .

[55]  Hemoglobin modified bilayer lipid membranes (BLMs) biosensor for carbon dioxide detection , 1997 .

[56]  W. E. Ford,et al.  Photosensitization of Colloidal SnO2 by Ruthenium(II) Polypyridine Dissolved in a Supported Surfactant Bilayer , 1994 .

[57]  H. Ti Tien,et al.  Crown Ether-Modified Bilayer Lipid Membranes on Solid Support as Ion Sensors , 1995 .

[58]  I. Taniguchi,et al.  Voltammetric response of horse heart cytochrome c at a gold electrode in the presence of sulfur bridged bipyridines , 1982 .

[59]  B. Lindholm-Sethson Electrochemistry at ultrathin organic films at planar gold electrodes , 1996 .

[60]  P. Seta,et al.  Mechanism and kinetic analysis of the photo-induced electron transfer mediated by a stacked metallotriporphyrin in planar lipid bilayers , 1992 .

[61]  H. Galla,et al.  Impedance analysis of ion transport through gramicidin channels incorporated in solid supported lipid bilayers , 1997 .

[62]  H. Ti Tien,et al.  Iodide sensitive sensor based on a supported bilayer lipid membrane containing a cluster form of carbon (fullerene C60) , 1996 .

[63]  H. Ti Tien,et al.  METHODS FOR THE FORMATION OF SINGLE BIMOLECULAR LIPID MEMBRANES IN AQUEOUS SOLUTION , 1963 .

[64]  M. Rehak,et al.  Self-assembled lipid bilayers as a potassium sensor , 1993 .

[65]  H. Ti Tien,et al.  A new method for the determination of electrical properties of supported bilayer lipid membranes by cyclic voltammetry , 1996 .

[66]  D. Stenger,et al.  Voltage modulation of a gated ion channel admittance in platinum-supported lipid bilayers , 1992 .

[67]  Ivan Ivanov,et al.  Thin liquid films : fundamentals and applications , 1988 .

[68]  G. Gabrielli Monolayers and planar or curved bilayers. , 1991, Advances in colloid and interface science.

[69]  T. Tjärnhage,et al.  Liposome and proteoliposome fusion onto solid substrates, studied using atomic force microscopy, quartz crystal microbalance and surface plasmon resonance. Biological activities of incorporated components , 1995 .

[70]  V. I. Passechnik,et al.  Surface potentials and solvent redistribution may explain the dependence of electrical and mechanical properties of supported lipid bilayers on applied potential and bilayer history , 1995 .

[71]  E. Bamberg,et al.  Charge transport by ion translocating membrane proteins on solid supported membranes. , 1993, Biophysical journal.

[72]  M. Šnejdárková,et al.  Stability of bilayer lipid membranes on different metallic supports. , 1997, Biosensors & bioelectronics.

[73]  D. Mandler,et al.  Applications of self-assembled monolayers in electroanalytical chemistry , 1996 .

[74]  Ralph G. Nuzzo,et al.  ADSORPTION OF BIFUNCTIONAL ORGANIC DISULFIDES ON GOLD SURFACES , 1983 .