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Adhesion ability of angiotensin II with model membranes
Preu, J., Tiefenauer, L., & Gutberlet, T. (2017). Adhesion ability of angiotensin II with model membranes. Biochimica et Biophysica Acta: Biomembranes, 1859(2), 195-200. https://doi.org/10.1016/j.bbamem.2016.11.007
Smart polymer brush nanostructures guide the self-assembly of pore-spanning lipid bilayers with integrated membrane proteins
De Groot, G. W., Demarche, S., Santonicola, M. G., Tiefenauer, L., & Vancso, G. J. (2014). Smart polymer brush nanostructures guide the self-assembly of pore-spanning lipid bilayers with integrated membrane proteins. Nanoscale, 6(4), 2228-2237. https://doi.org/10.1039/c3nr05356c
Polymer-based microfluidic device for measuring membrane protein activities
Hutter, I., Müller, E., Kristiansen, P. M., Kresak, S., & Tiefenauer, L. (2013). Polymer-based microfluidic device for measuring membrane protein activities. Microfluidics and Nanofluidics, 14(3-4), 421-429. https://doi.org/10.1007/s10404-012-1061-0
Free-standing lipid films stabilized by Annexin-A5
Simon, A., Gounou, C., Tan, S., Tiefenauer, L., Di Berardino, M., & Brisson, A. R. (2013). Free-standing lipid films stabilized by Annexin-A5. Biochimica et Biophysica Acta: Biomembranes, 1828(11), 2739-2744. https://doi.org/10.1016/j.bbamem.2013.07.028
Challenges in the development of functional assays of membrane proteins
Tiefenauer, L., & Demarche, S. (2012). Challenges in the development of functional assays of membrane proteins. Materials, 5(11), 2205-2242. https://doi.org/10.3390/ma5112205
Techniques for recording reconstituted ion channels
Demarche, S., Sugihara, K., Zambelli, T., Tiefenauer, L., & Vörös, J. (2011). Techniques for recording reconstituted ion channels. Analyst, 136(6), 1077-1089. https://doi.org/10.1039/c0an00828a
Integration and recording of a reconstituted voltage-gated sodium channel in planar lipid bilayers
Studer, A., Demarche, S., Langenegger, D., & Tiefenauer, L. (2011). Integration and recording of a reconstituted voltage-gated sodium channel in planar lipid bilayers. Biosensors and Bioelectronics, 26(5), 1924-1928. https://doi.org/10.1016/j.bios.2010.06.008
Formation of individual protein channels in lipid bilayers suspended in nanopores
Studer, A., Han, X., Winkler, F. K., & Tiefenauer, L. X. (2009). Formation of individual protein channels in lipid bilayers suspended in nanopores. Colloids and Surfaces B: Biointerfaces, 73(2), 325-331. https://doi.org/10.1016/j.colsurfb.2009.06.006
Electrochemical rectification by redox-labeled bioconjugates: molecular building blocks for the construction of biodiodes
Azzaroni, O., Mir, M., Álvarez, M., Tiefenauer, L., & Knoll, W. (2008). Electrochemical rectification by redox-labeled bioconjugates: molecular building blocks for the construction of biodiodes. Langmuir, 24(6), 2878-2883. https://doi.org/10.1021/la703536a
Molecular architectures for electrocatalytic amplification of oligonucleotide hybridization
Mir, M., Álvarez, M., Azzaroni, O., Tiefenauer, L., & Knoll, W. (2008). Molecular architectures for electrocatalytic amplification of oligonucleotide hybridization. Analytical Chemistry, 80(17), 6554-6559. https://doi.org/10.1021/ac800560t
Nano for bio: nanopore arrays for stable and functional lipid bilayer membranes
Tiefenauer, L. X., & Studer, A. (2008). Nano for bio: nanopore arrays for stable and functional lipid bilayer membranes. Biointerphases: A Journal of Biomaterials and Biological Interfaces, 3(2), FA75-FA79. https://doi.org/10.1116/1.2912932
Nanopore arrays for stable and functional free-standing lipid bilayers
Han, X., Studer, A., Sehr, H., Geissbühler, I., Di Berardino, M., Winkler, F. K., & Tiefenauer, L. X. (2007). Nanopore arrays for stable and functional free-standing lipid bilayers. Advanced Materials, 19(24), 4466-4470. https://doi.org/10.1002/adma.200700468
A mixture of ferritin and magnetite nanoparticles mimics the magnetic properties of human brain tissue
Brem, F., Tiefenauer, L., Fink, A., Dobson, J., & Hirt, A. M. (2006). A mixture of ferritin and magnetite nanoparticles mimics the magnetic properties of human brain tissue. Physical Review B, 73(22), 224427 (6 pp.). https://doi.org/10.1103/PhysRevB.73.224427
PNA-DNA hybridization study using labeled streptavidin by voltammetry and surface plasmon fluorescence spectroscopy
Liu, J., Tiefenauer, L., Tian, S., Nielsen, P. E., & Knoll, W. (2006). PNA-DNA hybridization study using labeled streptavidin by voltammetry and surface plasmon fluorescence spectroscopy. Analytical Chemistry, 78(2), 470-476. https://doi.org/10.1021/ac051299c
Ethics of nanotechnology in medicine. <em>Challenges and promises</em>
Tiefenauer, L. X. (2006). Ethics of nanotechnology in medicine. Challenges and promises. NanoBiotechnology, 2(1-2), 1-3. https://doi.org/10.1007/s12030-006-0001-z
Simultaneously amplified electrochemical and surface plasmon optical detection of DNA hybridization based on ferrocene-streptavidin conjugates
Liu, J., Tian, S., Tiefenauer, L., Nielsen, P. E., & Knoll, W. (2005). Simultaneously amplified electrochemical and surface plasmon optical detection of DNA hybridization based on ferrocene-streptavidin conjugates. Analytical Chemistry, 77(9), 2756-2761. https://doi.org/10.1021/ac048088c
Molecular assembly of redox-conductive ferrocene-streptavidin conjugates - towards bio-electrochemical devices
Padeste, C., Steiger, B., Grubelnik, A., & Tiefenauer, L. (2004). Molecular assembly of redox-conductive ferrocene-streptavidin conjugates - towards bio-electrochemical devices. Biosensors and Bioelectronics, 20(3), 545-552. https://doi.org/10.1016/j.bios.2004.03.004
High volume fabrication of customised nanopore membrane chips
Heyderman, L. J., Ketterer, B., Bächle, D., Glaus, F., Haas, B., Schift, H., … Hessler, T. (2003). High volume fabrication of customised nanopore membrane chips. Microelectronic Engineering, 67-68, 208-213. https://doi.org/10.1016/S0167-9317(03)00073-X
Redox labelled avidin for enzyme sensor architectures
Padeste, C., Steiger, B., Grubelnik, A., & Tiefenauer, L. (2003). Redox labelled avidin for enzyme sensor architectures. Biosensors and Bioelectronics, 19(3), 239-247. https://doi.org/10.1016/S0956-5663(03)00214-8
Charge transport effects in ferrocene-streptavidin multilayers immobilized on electrode surfaces
Steiger, B., Padeste, C., Grubelnik, A., & Tiefenauer, L. (2003). Charge transport effects in ferrocene-streptavidin multilayers immobilized on electrode surfaces. Electrochimica Acta, 48(6), 761-769. https://doi.org/10.1016/S0013-4686(02)00746-6