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Analytical Letters Volume 34, 2001 - Issue 8
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Original Articles

COUPLING OF IMMUNOASSAYS WITH ENZYMATIC RECYCLING ELECTRODES

Frieder W. Scheller University of Potsdam, Institute of Biochemistry and Molecular Physiology, Chair of Analytical Biochemistry, Karl-liebknecht-Straße 24-25, House 25, Golm, 14476, Germany
,
Christian G. Bauer University of Potsdam, Institute of Biochemistry and Molecular Physiology, Chair of Analytical Biochemistry, Karl-liebknecht-Straße 24-25, House 25, Golm, 14476, Germany
,
Alexander Makower University of Potsdam, Institute of Biochemistry and Molecular Physiology, Chair of Analytical Biochemistry, Karl-liebknecht-Straße 24-25, House 25, Golm, 14476, Germany
,
Ulla Wollenberger University of Potsdam, Institute of Biochemistry and Molecular Physiology, Chair of Analytical Biochemistry, Karl-liebknecht-Straße 24-25, House 25, Golm, 14476, Germany
,
Axel Warsinke University of Potsdam, Institute of Biochemistry and Molecular Physiology, Chair of Analytical Biochemistry, Karl-liebknecht-Straße 24-25, House 25, Golm, 14476, Germany
&
Frank F. Bier IBMT Institute of Biomedical Technique of FhG, Arthur-Scheunert-Allee 114-116, 14558 , Bergholz-Rehbrücke, Germany
Pages 1233-1245 | Received 09 Mar 2001, Accepted 16 Mar 2001, Published online: 02 Feb 2007

REFERENCES

  • Niwa , O. , Morita , M. and Tabei , H. 1991 . Highly sensitive and selective voltammetric detection of dopaminewith vertically separated interdigitated array electrodes . Electroanal. , 3 : 163 – 168 .
  • Wollenberger , U. , Paeschke , M. and Hintsche , R. 1994 . Interdigitated array electrodes for the determination of enzymeactivities . Analyst , 119 : 1245 – 1249 .
  • Scheller , F. W. , Wollenberger , U. , Schubert , F. , Pfeiffer , D. and Bogdanovskaya , V. A. 1987 . Amplification and switching by enzymes in biosensors . GBF Monographs , 10 : 39 – 49 .
  • Ortega , F. , Dominguez , E. , Jonsson-Pettersson , G. and Gorton , L. 1993 . Amperometric biosensor for the determination of phenolic compoundsusing a tyrosinase graphite electrode in a flow injection system . J. Biotech. , 31 : 289 – 300 .
  • Schubert , F. , Kirstein , D. , Schröder , K. L. and Scheller , F. W. 1985 . Enzyme electrodes with substrate and coenzyme amplification . Anal. Chim. Acta , 169 : 391 – 396 .
  • Wollenberger , U. , Schubert , F. , Pfeiffer , D. and Scheller , F. W. 1993 . Enhancing biosensor performance using multienzyme systems . TIBtech , 11 : 255 – 262 .
  • Kronkvist , K. , Lövgren , U. , Edholm , L. E. and Johansson , G. 1993 . A new approach to competitive flow ELISA for steroids yieldingand increase in sensitivity and sample throughput , PhD-thesis Sweden : University ofLund .
  • Duan , C. and Meyerhoff , M. E. 1994 . Separation-free sandwich enzyme immunoassays using microporousgold electrodes and self-assembled monolayer/immobilized capture antibodies . Anal. Chem. , 66 : 1369 – 1377 .
  • La Gal La Salle , A. , Limoges , B. and Degrand , C. 1995 . Enzyme immunoassays with an electrochemical detection methodusing alkaline phosphatase and a perfluorosulfonated ionomer-modified electrode.Application to phenytoin assays . Anal. Chem. , 67 : 1245 – 1253 .
  • Ho , W. O. , Athey , D. and McNeil , C. 1995 . Amperometric detection of alkaline phosphatase activity at ahorseradish peroxidase enzyme electrode based on activated carbon: potentialapplication to electrochemical immunoassay . Biosensors & Bioelectronics , 10 : 683 – 691 .
  • Bier , F. F. , Ehrentreich-Förster , E. , Bauer , C. and Scheller , F. W. 1996a . High sensitive competitive immunodetection of 2,4-dichlorophenoxyaceticacid using enzymatic amplification with electrochemical detection . Fresenius J. Anal. Chem. , 354 : 861 – 865 .
  • Kokado , A. , Arakawa , H. and Maeda , M. 2000 . New electrochemical assay of alkaline phosphatase using ascorbicacid 2-phosphatase and its application to enzyme immunoassay . Anal. Chim. Acta , 407 : 119 – 125 .
  • Nistor , C. and Emneus , J. 1998 . An enzyme flow immunoassay using alkaline phosphatase as thelabel and a tyrosinase biosensor as the label detector . Anal. Commun. , 35 : 417 – 419 .
  • Burstedt , E. , Nistor , C. , Schagerlöf , U. and Emneus , J. 2000 . An enzyme flow immunoassay that uses β-galactosidase asthe label and a cellobiose dehydrogenase biosensor as the label detector . Anal. Chem. , 72 : 4171 – 4177 .
  • Bier , F. , Förster , E. , Makower , A. and Scheller , F. W. 1996b . An enzymatic amplification cycle for highly sensitive immunoassay . Anal. Chim. Acta , 328 : 27 – 32 .
  • Kulys , J. J. , Razumas , V. and Malinauskas , A. 1980 . Electrochemical oxidation of catechol and p-aminophenol estersin the presence of hydrolases . Bioelectrochem. Bioenerg. , 7 : 11 – 24 .
  • Tang , H. T. , Lunte , C. F. , Halsall , H. B. and Heineman , W. R. 1988 . p-Aminophenyl phosphate: An improved substrate for electrochemicalenzyme immunoassay . Anal. Chim. Acta , 214 : 187 – 195 .
  • Bauer , C. G. , Eremenko , A. V. , Ehrentreich-Förster , E. , Bier , F. F. , Makower , A. , Halsall , H. B. , Heineman , W. R. and Scheller , F. W. 1996 . Zeptomole-detecting biosensor for alkaline phosphatase in anelectrochemical immunoassay for 2,4-dichlorophenoxyacetic acid . Anal. Chem. , 68 : 2453 – 2458 .
  • Kotte , H. , Gründig , B. , Vorlop , K.-D. , Strehlitz , B. and Stottmeister , U. 1995 . Methylphenazonium-modified enzyme sensor based on polymer thickfilms for subnanomolar detection of phenols . Anal. Chem. , 67 : 65 – 70 .
  • Ito , S. , Yamazaki , S. , Kano , K. and Ikeda , T. 2000 . Highly sensitive electrochemical detection of alkaline phosphatase . Anal. Chim. Acta , 424 : 57 – 63 .
  • Della Ciana , L. , Bernacca , G. , Bordin , F. , Fenu , S. and Garetto , F. 1995 . Highly sensitive amperometric measurement of alkaline phosphataseactivity with glucose oxidase amplification . J. Electroanal. Chem. , 381 : 129 – 135 .
  • Scheller , F. W. , Makower , A. , Ghindilis , A. L. , Bier , F. F. , Förster , E. , Wollenberger , U. , Bauer , C. G. , Micheel , B. , Pfeiffer , D. , Szeponik , J. , Michael , N. and Kaden , H. 1995 . Enzyme sensors for subnanomolar concentrations , ACS Symposium Series 613 Edited by: Rogers , K. R. , Mulchandani , A. and Zhou , W. 70 – 81 . Washington, DC : Biosensor and Chemical Sensor Technology, AmericanChemical Society .
  • Bauer , C. G. , Eremenko , A. V. , Kühn , A. , Kürzinger , K. , Makower , A. and Scheller , F. W. 1998 . Automated amplified flow immunoassay for cocaine . Anal. Chem. , 70 : 4624 – 4630 .
  • Weber , S. G. and Purdy , W. C. 1979 . Homogenous voltammetric immunoassay: a preliminary study . Anal. Lett. , 12 : 1 – 9 .
  • Bier , F. F. , Ehrentreich-Förster , E. , Dölling , R. , Eremenko , A. V. and Scheller , F. W. 1997 . A redox-label immunosensor on basis of a bi-enzyme electrode . Anal. Chim. Acta , 344 : 119 – 124 .
  • Ogert , R. A. , Kusterbeck , A. W. , Wemhoff , G. A. , Burke , R. and Ligler , F. S. 1992 . Detection of cocaine using flow immunosensors . Anal. Letters , 25 : 1999 – 2019 .
  • Narang , U. , Gauger , P. R. and Ligler , F. S. 1997 . Capillary-based displacement flow immunosensor . Anal. Chem. , 69 : 1961 – 1964 .
  • Palmer , D. A. and Miller , J. N. 1995 . Thiophilic gels: Applications in flow-injection immunoassaysfor macromolecules and haptens . Anal. Chim. Acta , 303 : 223 – 230 .
  • Palmer , D. A. , Evans , M. , French , M. and Miller , J. N. 1996 . Rapid fluorescence flow injection immunoassay using a novelperfusion chromatographic material . Analyst , 119 : 943 – 947 .
  • Oosterkamp , A. J. , Villaverde-Herraiz , M. T. , Irth , H. , Tjaden , U. R. and van der Greef , J. 1996 . Reversed-phase liquid chromatography coupled on-line to receptoraffnity detection based on the human estrogen receptor . Anal. Chem. , 68 : 1201 – 1206 .
  • Reeves , S. G. , Rule , G. S. , Roberts , M. A. , Edwards , A. J. and Durst , R. A. 1994 . Flow-injection liposome immunoanalysis (FILIA) for alachlor . Talanta , 41 : 1747 – 1753 .
  • Schmalzing , D. , Nashabeh , W. , Yao , X. W. , Mhatre , R. , Regnier , F. E. , Afeyan , N. B. and Fuchs , M. 1995 . Capillary electrophoresis-based immunoassay for cortisol inserum . Anal. Chem. , 67 : 606 – 612 .
  • Nistor , C. , Oubina , A. , Marco , M.-P. , Barcelo , D. and Emneus , J. 2001 . Competitive flow immunoassay with fluorescence detection fordetermination of 4-nitrophenol . Anal. Chim. Acta , 426 : 185 – 195 .
  • Gaikwad , A. , Gomezhens , A. and Perezbendito , D. 1993 . Estimation of opiate, urine by stopped flow fluoroimmunoassay . Fresenius J. Anal. Chem. , 347 : 450 – 453 .
  • Matveeva , E. G. , Aguilarcaballos , M. P. , Eremin , S. A. , Gomezhens , A. and Perezbendito , D. 1997 . Use of stopped-flow fluoroimmunoassay in pestizide determination . Analyst , 122 : 863 – 866 .
  • Kronkvist , K. , Lövgren , U. , Svenson , J. , Edholm , L. E. and Johansson , G. 1997 . Competitive flow injection enzyme immunoassay for steroids usinga post-column reaction technique . J. Immunological Methods , 200 : 145 – 153 .
  • Dzantiev , B. , Yulaev , M. F. , Sitdikov , R. A. , Dimitrieva , N. M. , Moreva , I. Y. and Zherdev , A. V. 1996 . Electrochemical immunosensors for determination of the pesticides2,4-dichlorophenoxyacetic and 2,4,5-trichlorophenoxyacetic acids . Biosens. Bioelectr. , 1/2 : 179 – 185 .
  • Wilmer , M. , Trau , D. , Renneberg , R. and Spener , F. 1997 . Amperometric immunosensor for the detection of 2,4-dichlorophenoxyaceticacid (2,4-D) in water . Anal. Letters , 30 : 515 – 525 .
  • Gerdes , M. , Spener , F. and Meusel , M. 2000 . Pseudo homogenous amperometric immunosensor for the detectionof 2,4-D based on a displacement . Quim. Anal. , 19 : 8 – 14 .
  • Osipov , A. P. , Zaitseva , N. V. and Egorov , A. M. 1996 . Chemiluminescent immunoenzyme biosensor with a thin-layer flow-throughcell. Application for study of a real-time bimolecular antigen-antibody interaction . Biosens. Bioelectr. , 11 : 881 – 887 .
  • Chiem , N. and Harrison , J. 1997 . Microchip-based capillary electrophoresis for immunoassays:Analysis of monoclonal antibodies and theophyllin . Anal. Chem. , 69 : 373 – 378 .
  • Locascio-Brown , L. , Martynova , L. , Christensen , R. G. and Horvai , G. 1996 . Flow immunoassay using solid-phase entrapment . Anal. Chem. , 68 : 1665 – 1670 .
  • Kaneki , N. , Xu , Y. , Kumari , A. , Halsall , H. B. , Heineman , W. R. and Kissinger , P. T. 1994 . Electrochemical enzyme immunoassay using sequential saturationtechnique in a 20-μl capillary: Digoxin as a model analyte . Anal. Chim. Acta , 287 : 253 – 258 .
  • Nilsson , M. , Hâkansson , H. and Mattiasson , B. 1991 . Flow-injection ELISA for process monitoring and control . Anal. Chim. Acta , 249 : 163 – 168 .
  • Nilsson , M. , Hâkansson , H. and Mattiasson , B. 1992 . Evaluation of direct versus competitive assays in flow injectionsystems . Process Control and Quality , 4 : 37 – 45 .
  • Yu , H. , Kusterbeck , A. W. , Hale , M. J. , Ligler , F. S. and Whelan , J. P. 1996 . Use of the USDT flow immunosensor for quantitation of benzoylecgoninein urine . Biosens. Bioelectr. , 11 : 725 – 734 .
  • De Frutos , M. , Paliwal , S. K. and Regnier , F. E. 1993 . Liquid chromatography based enzyme-amplified immunological assaysin fused-silica capillaries at the zeptomole level . Anal. Chem. , 65 : 2159 – 2163 .

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