General
Jilin Tang    Ph.D 
Email:jltang@ciac.jl.cn
Telephone:+86-431-85262734
Postcode:130022

Education

Ph.D  1999-2002   Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, China
M.S.  1996-1999    Norman Bethune University of Medical Sciences, Pharmacy Chemistry, China
B.S.   1990-1994    Yanbian Medical College, Department of Pharmacy Chemistry, China
2005-2008   Johannes-Kepler-University Linz, Austria, Postdoc
2003-2004   Johann-Wolfgang Goethe-University Frankfurt am Main, Germany, Postdoc

Publications

   
Papers
1.        Recognition Imaging and Highly Ordered Molecular Templating of Bacterial S-Layer Nanoarrays Containing Affinity-Tags
        Jilin Tang, Andreas Ebner, Helga Badelt-Lichtblau, Christine Völlenkle, Christian Rankl, Bernhard Kraxberger, Michael Leitner, Linda Wildling, Hermann J. Gruber, Uwe B. Sleytr, Nicola Ilk,  Peter Hinterdorfer
         Nano Lett., 2008, 8, 4312–4319
2.        Detection of Metal Binding Sites on Functional S-layer Nanoarrays Using Single Molecule Force Spectroscopy
         Jilin Tang, Andreas Ebner, Bernhard  Kraxberger, Michael  Leitner, Alba  Hykollari, Christian  Kepplinger, Christian  Grunwald, Robert  Tampé, Hermann  J Gruber, Uwe  B Sleytr, Nicola Ilk,  Peter Hinterdorfer
         Journal of Structural Biology,in press
3.        Fabrication of Highly Ordered Gold Nanoparticle Arrays Templated by Crystalline Lattices of Bacterial S-Layer Protein
         Jilin Tang, Helga Badelt-Lichtblau, Andreas Ebner, Johannes Preiner, Bernhard Kraxberger, Hermann J. Gruber, Uwe B. Sleytr, Nicola Ilk, Peter Hinterdorfer
         ChemPhyschem  92317 – 2320 I.F. 3.502
4.        Atomic force microscopy imaging and single molecule recognition force spectroscopy of coat proteins on the surface of Bacillus subtilis spore.
         Jilin Tang, Daniela Krajcikova, Rong Zhu, Andreas Ebner, Hermann J. Gruber, Imrich Barak, Peter Hinterdorfer
Journal of Molecular Recognition, 2007,20, 483-489 I.F. 3.767
5.        High Affinity Tags Fused to S-Layer Proteins Probed by Atomic Force Microscopy
         Jilin Tang, Andreas Ebner, Nicola Ilk, Helga Lichtblau, Carina Huber, Rong Zhu, Dietmar Pum, Micheal Leitner, Vassili Pastushenko, Hermann J. Gruber, Uwe B. Sleytr, Peter Hinterdorfer
          Langmuir, 2008,24, 1324-1329. I.F. 4.009
6.        Higher Harmonic Atomic Force Microscopy: Imaging of Biological Membranes in Liquid
                 Johannes Preiner, Jilin Tang, Vasilli Pastushenko, and Peter      Hinterdorfer
                   Physical  Review Letters, 2007, 99, 046102  I.F. 6.944
7.        Single Molecule Force Microscopy on Cells and Biological Membranes.
          Andreas Ebner, Josef. Madl, Ferry Kienberger, Lilia Chtcheglova, Theeraporn Puntheeranurak, Rong Zhu, Jilin Tang, Herman Gruber, Gerald Schuetz, Peter Hinterdorfer.
Current Nanoscience, 2007,3 , 49-56. I.F. 2.793
8.         High-Affinity Chelator Thiols for Switchable and Oriented Immobilization of histidine-Tagged Proteins: A Generic Platform for Protein ChipTechnologies
        Ali Tinazli, Jilin Tang, Ramunas Valiokas, Srdjan Picuric, Suman Lata, Jacob Piehler,  Bo Liedberg,  Robert Tampe
                  Chemistry-A European Journal, 2005,11, 5249-59. I.F.  5.33
9.        Atomic-Force-Microscopy Imaging and Molecular-Recognition-Force Microscopy of Recrystallized Heterotetramers Comprising an S-layer-Streptavidin Fusion Protein.
        Andreas Ebner, Ferry Kienberger, Carina Huber, A.S.M. Kamruzzahan, Vassili Ph. Pastushenko, Jilin Tang, Gerald Kada, Hermann J. Gruber, Uwe B. Sleytr, Margit Sara, Peter Hinterdorfer.     
                 Chembiochem. 2006, 7, 588-91.  I.F. 3.446
10.    Lipid Membrane Immobilized Horseradish Peroxidase Biosensor for Amperometric Determination of Hydrogen Peroxide
Jilin Tang, Bingquan Wang, Zhengyan Wu, Xiaojun Han, Shaojun Dong, Erkang Wang
Biosensors & Bioelectronics, 2003, 18, 867-872. I.F. 5.061
11.    Conformation Change of Horseradish Peroxidase in the Lipid Membrane
Jilin Tang, Junguang Jiang, Yonghai Song, Zhengyan Wu, Zhangquan Peng, Shaojun Dong, Erkang Wang
Chemistry and Physics of lipids, 2002, 120, 119-129. I.F. 2.396
12.    Electrocatalytic Oxidation of NADH by Rutin in Biomembrane-like Films on Glassy Carbon Electrode
Jilin Tang, Zhengyan Wu, Jianguo Wang, Erkang Wang
Electrochemistry Communications, 2000, 2, 796-799. I.F. 4.186
13.    Oxidation of Ascorbic Acid by Rutin at a Glassy Carbon Electrode Modified with Lipid Films
Jilin Tang, Zhengyan Wu, Jianguo Wang, Erkang Wang
Electroanalysis, 2001, 13, 1315-1318. I.F. 2.949
14.    Xanthine Biosensor Based on Didodecyldimethylammonium Bromide Modified Pyrolytic Graphite Electrode
Jilin Tang, Xiaojun Han, Weimin Huang, Erkang Wang
Chinese Journal of Chemistry, 2002, 20, 263-266. I.F. 0.719
15.    Ion Channel Behavior of Supported Bilayer Lipid Membranes on Glassy Carbon Electrode
Zhengyan Wu, Jilin Tang, Zhiliang Cheng, Xiurong Yang, Erkang Wang
Analytical Chemistry, 2000, 72, 6030-6033. I.F. 5.646
16.    Formation of a Supported Hybrid Bilayer Membrane on Gold: A Sterically Enhanced Hydrophobic Effect
Zhangquan Peng, Jilin Tang, Xiaojun Han, Erkang Wang, Shaojun Dong
Langmuir, 2002, 18, 4834-4839. I.F. 4.009
17.    Ion Channel Behavior of Amphotericin B in Sterol-Free and Cholesterol- or Ergosterol-Containing Supported Phosphatidylcholine Bilayer Model Membranes Investigated by Electrochemistry and Spectroscopy.
         Huang Weimin, Zhang Zheling, Han Xiaojun, Tang Jilin, Wang Jianguo, Dong Shaojun, Wang Erkang. 
                  Biophysical Journal, 2002, 83, 3245-55.       I.F. 4.627
18.    Electrocatalytic Oxidation of Ascorbic Acid by Ferrocene in Lipid Film Cast on a Glassy Carbon Electrode
Jianguo Wang, Zhengyan Wu, Jilin Tang, Renrui Teng, Erkang Wang
Electroanalysis, 2001, 13, 1093-1097. I.F. 2.949
19.    Electrocatalytic Oxidation of Dopamine by Ferrocene in Lipid Film Cast on a Glassy Carbon Electrode
Jianguo Wang, Zhengyan Wu, Jilin Tang, Renrui Teng, Erkang Wang
Chinese Journal of Chemistry, 2002, 20, 147-152. I.F. 0.719
20.    Electrochemistry and Spectroscopy Study on the Interaction of Microperxidase-11 with Lipid Membrane
Weimin Huang, Zheling Zhang, Xiaojun Han, Jilin Tang, Zhangquan Peng, Shaojun Dong, Erkang Wang
Biophysical Chemistry, 2001, 94, 165-173.       I.F. 1.913
21.    Electrocatalytic Oxidation of AscorbicAacid by Norepinephrine Embedded in Lipid Cast Film at Glassy Carbon Electrode
Xiaojun Han, Jilin Tang, Jianguo Wang, Erkang Wang
Electrochimica Acta, 2001, 46, 3367 - 3371. I.F. 2.848
22.    Oxidation of Ascorbic Acid by Dopamine Incorporated in Mimetic Biomembrane Zhengyan Wu, Jilin Tang, Erkang Wang
Chinese Jornal of Analytical Chemistry 2001, 29, 881-884. I.F. 0.361
23.    Conformational transition of DNA induced by cationic lipid vesicle in acidic solution: spectroscopy investigation
Zheling Zhang, Weimin Huang, Jilin Tang, Shaojun Dong, Erkang Wang
Biophysical Chemistry, 2002 , 97, 7-16.     I.F. 1.913
         Jing Weigou, Liu Changwei, Tang Jilin, Wu Zhengyan, Dong Shaojun, Wang Erkang
Chinese Journal of Chemistry, 2003, 21, 544-549. I.F. 0.719
25.    Hydrogen Peroxide Biosensor Based on Microperoxidase-11 Entrapped in Lipid Membrane.
         Huang Weimin, Jia Jianbo, Zhang Zheling, Han Xiaojun, Tang Jilin, Wang Jianguo, Dong Shaojun, Wang Erkang    
                 Biosensors & Bioelectronics, 2003,18, 1225. I.F. 5.061
26.    Liposome-Mediated Conformation Transition of DNA Detected by Molecular Probe: Methyl Green.
        Huang Weimin, Zhang Zheling, Han Xiaojun, Tang Jilin, Wang Jianguo, Dong Shaojun, Wang Erkang 
                  Bioelectrochemistry, 2003, 59, 21-7.    I.F. 2.992