Abstract
Immobilisation of molecules is required for a broad range of applications, such as biosensors which become of increasing importance in different areas of clinical, environmental, and biotechnological analysis (Scheller and Schubert, 1990). Crucial points in the development and optimisation of biosensors are the choice and the immobilisation of the biological or “biologically inspired” recognition unit of the sensor which determine function as well as economy of a biosensor.
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References
Bartlett, P.N., and Cooper, J.M., 1993, A review of the immobilization of enzymes in electropolymerized films, J Electroanal. Chem. 362: 1.
Bäuerle, P., and Scheib, St., 1993, Molecular recognition of alkali-ions by crown-ether-functionalized poly(alkythiophenes), Adv. Mater. 5: 848.
Beck, W., Jung, G., Bessler, W.G., Benz, I., and Kohlhardt, M., 1994, Conformational mapping of the cytosolic linker between domains III and IV of the cardiac Na+ channel protein and binding studies with a site-directed channel modifying antibody, Biochim. Biophys. Acta 1206: 263.
Bull, R.A., Fan, F.-R., and Bard, A.J., 1983, Polymer films on electrodes. 13. Incorporation of catalysts into electronically conductive polymers: iron phthalocyanine in polypyrrole, J. Electrochem. Soc. 130: 1636.
Dürr, H., Beck-Sickinger, A.G., Schnorrenberg, G., Rapp, W., and Jung, G., 1991, Cleavage kinetics and anchor linked intermediates in peptide amide synthesis, Int. J. Pept. Protein Res. 38: 146.
Fodor, S.P.A., Read, J.L., Pinang, M.C., Stryer, L., Lu, A.T., and Solas, D., 1991, Light-directed, spatially addressable parallel chemical synthesis, Science 251: 767.
Gardner, J.W., and Bartlett, P.N., 1991, Potential applications of electropolymerized thin organic films in nanotechnology, Nanotechnology 2: 19.
Graf, J., Iwamoto, Y., Sasaki, M., Martin, G.R., Kleinman, H.K., Robey, F.A., and Yamada, Y., 1987, Identification of an amino acid sequence in laminin mediating cell attachment, chemotaxis, and receptor binding, Cell 48: 989.
Ibrahim, S.K., Pickett, C.J., and Sudbrake, C., 1995, Peptide derivatised poly(pyrrole) modified electrodes with built-in ion-exchange functions, J. Electroanal. Chem. 387: 139.
Jung, G., 1996, Peptide and non peptide libraries,Verlag Chemie,Weinheim.
Knichel, M., Heiduschka, P., Beck, W., Jung, G. and Göpel, W., 1995, Utilization of a self-assembled peptide monolayer for an impedimetric immunosensor, Sens. Actuators B 28: 85.
Moutet, J.-C., Saint-Aman, E, Angibeaud, P, and Utille, J.-P., 1992, Poly(glucose-pyrrole) modified electrodes: a novel chiral electrode for enantioselective recognition, Adv. Mater. 4: 511.
Rickert, J., Heiduschka, P., Göpel, W., Beck, W., and Jung, G., 1996, A ‘mixed’ self-assembled monolayer in an impedimetric immunosensor, Biosens. Bioelectron.,in press.
Ryder, K.S., Morris, D.G., and Cooper, J.M., 1995, Functionalisation and characterisation of novel conducting polymer interfaces, J. Chem. Soc., Chem. Commun. 1471.
Scheller, F., and Schubert, F., 1990, Biosensors, Elsevier, Amsterdam.
Sephel, G.C., Tashiro, K.-I., Sasaki, M., Greatorex, D., Martin, G.R., Yamada, Y., and Kleinman, H.K., 1989, Laminin A chain synthetic peptide which supports neurite outgrowth, Biochem. Biophys. Res. Commun. 162: 821.
Timpl, R., 1989, Structure and biological activity of basement membrane proteins, Eur. J. Biochem. 180: 487–502.
Ulman, A, 1991, Ultrathin Organic Films, Academic Press, Boston.
Wiesmüller, K.-H., Jung, G., and Hess, G., 1989, Novel low-molecular-weight synthetic vaccine against foot-and-mouth disease containing a potent B-cell and macrophage activator, Vaccine 7: 29.
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Heiduschka, P., Beck, W., Kraas, W., Kienle, S., Jung, G., Göpel, W. (1996). Surface Attachment of Functional Peptides by Electrochemical Polymerisation. In: Ratner, B.D., Castner, D.G. (eds) Surface Modification of Polymeric Biomaterials. Springer, Boston, MA. https://doi.org/10.1007/978-1-4899-1953-3_16
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DOI: https://doi.org/10.1007/978-1-4899-1953-3_16
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