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Analytical Letters Volume 38, 2005 - Issue 10
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Mini‐Review

Biosensors for Protein Detection: A Review

Béatrice Leca‐Bouvier Laboratoire de Génie Enzymatique et Biomoléculaire, Université Claude Bernard Lyon 1, Villeurbanne Cedex, FranceCorrespondence[email protected]
&
Loïc J. Blum Laboratoire de Génie Enzymatique et Biomoléculaire, Université Claude Bernard Lyon 1, Villeurbanne Cedex, France
Pages 1491-1517 | Received 01 Apr 2005, Accepted 20 Apr 2005, Published online: 02 Feb 2007

References

  • Abad , J. M. , Pariente , F. , Hernandez , L. and Lorenzo , E. 1998 . A quartz crystal microbalance assay for detection of antibodies against the recombinant African swine fever virus attachment protein p12 in swine serum . Anal. Chim. Acta , 368 : 183 – 189 .
  • Aoyagi , S. and Kudo , M. 2005 . Development of fluorescence change‐based, reagent‐less optic immunosensor . Biosens. Bioelectron. , 20 : 1680 – 1684 .
  • Arntz , Y. , Seelig , J. D. , Lang , H. P. , Zhang , J. , Hunziker , P. , Ramseyer , J. P. , Meyer , E. , Hegner , M. and Gerber , C. 2003 . Label‐free protein assay based on a nanomechanical cantilever array . Nanotechnology , 14 : 86 – 90 .
  • Baselt , D. R. , Lee , G. U. and Colton , R. J. 1996 . Biosensor based on force microscope technology . J. Vac. Sci. Technol. B , 14 ( 2 ) : 789 – 793 .
  • Besselink , G. A.J. , Schasfoort , R. B.M. and Bergveld , P. 2003 . Modification of ISFETs with a monolayer of latex beads for specific detection of proteins . Biosens. Bioelectron. , 18 : 1109 – 1114 .
  • Bradford , M. M. 1976 . A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein‐dye binding . Anal. Biochem. , 72 : 248 – 254 .
  • Capitan‐Vallvey , L. F. , Duque , O. , Miron‐Garcia , G. and Checa‐Moreno , R. 2001 . Determination of protein content using a solid phase spectrophotometric procedure . Anal. Chim. Acta , 433 : 155 – 163 .
  • Chen , H. , Wang , L. , Wang , L. , Wang , G. , Li , L. and Xu , F. 2004 . Preparation of novel composite nanoclusters and their application in the ultrasensitive detection of proteins . Anal. Chim. Acta , 521 : 9 – 15 .
  • Cheng , S.‐F. and Chau , L.‐K. 2003 . Colloidal gold‐modified optical fiber for chemical and biochemical sensing . Anal. Chem. , 75 : 16 – 21 .
  • Cui , Y. , Wei , Q. , Park , H. and Lieber , C. M. 2001 . Nanowire nanosensors for highly sensitive and selective detection of biological and chemical species . Science , 293 : 1289 – 1292 .
  • Darbon , P. , Michel , V. , Math , F. , Giorgi , H. and Machizaud , F. 1998 . Immunoelectrodes in protein detection: comparison between glassy carbon and a semimetallic Ni/P thin film as binding support. Biological applications . Anal. Chem. , 70 : 5072 – 5078 .
  • De la Escosura‐Muniz , A. , Gonzalez‐Garcia , M. B. and Costa‐Garcia , A. 2004 . Electrocatalytic detection of aurothiomalate on carbon electrodes. Application as a non‐enzymatic label to the quantification of proteins . Anal. Chim. Acta , 524 : 355 – 363 .
  • Diaz‐Gonzalez , M. , Hernandez‐Santos , D. , Gonzalez‐Garcia , M. B. and Costa‐Garcia , A. 2005 . Development of an immunosensor for the determination of rabbit IgG using streptavidin modified screen‐printed carbon electrodes . Talanta , 65 : 565 – 573 .
  • Duan , C. and Meyerhoff , M. E. 1994 . Separation‐free sandwich enzyme immunoassays using microporous gold electrodes and self‐assembled monolayer/immobilized capture antibodies . Anal. Chem. , 66 : 1369 – 1377 .
  • Ebersole , R. C. and Ward , M. D. 1988 . Amplified mass immunosorbent assay with a quartz crystal microbalance . J. Am. Chem. Soc. , 110 : 8623 – 8628 .
  • Fung , Y.‐S. and Mo , S.‐Y. 1995 . Determination of amino acids and proteins by dual‐electrode detection in a flow system . Anal. Chem. , 67 : 1121 – 1124 .
  • Gabl , R. , Feucht , H.‐D. , Zeininger , H. , Eckstein , G. , Schreiter , M. , Primig , R. , Pitzer , D. and Wersing , W. 2004 . First results on label‐free detection of DNA and protein molecules using a novel integrated sensor technology based on gravimetric detection principles . Biosens. Bioelectron. B , 19 : 615 – 620 .
  • Gonzalez‐Garcia , M. B. , Fernandez‐Sanchez , C. and Costa‐Garcia , A. 2000 . Colloidal gold as an electrochemical label of streptavidin‐biotin interaction . Biosens. Bioelectron. , 15 : 315 – 321 .
  • Gornall , A. G. , Bardawill , C. J. and David , M. M. 1949 . Determination of serum proteins by means of the biuret reagent . J. Biol. Chem. , 177 : 751 – 756 .
  • Guo , Z.‐X. , Hao , Y.‐M. , Cong , X. and Shen , H.‐X. 2000 . Application of the dibromohydroxyphenylfluorone‐molybdenum(VI) complex to the sensitive spectrophotometric determination of protein . Anal. Chim. Acta , 403 : 225 – 233 .
  • Haab , B. B. , Dunham , M. J. and O'Brown , P. 2001 . Protein microarrays for highly parallel detection and quantitation of specific proteins and antibodies in complex solutions . Genome Biology , 2 ( 2 ) : research0004.1 – 0004.13 .
  • Haasnoot , W. , Olieman , K. , Cazemier , G. and Verheijen , R. 2001 . Direct biosensor immunoassays for the detection of nonmilks proteins in milk powder . J. Agric. Food Chem. , 49 : 5201 – 5206 .
  • Heyduck , T. and Heyduck , E. 2002 . Molecular beacons for detecting DNA binding proteins . Nat. Biotechnol. , 20 : 171 – 176 .
  • Heyduk , E. and Heyduk , T. 2005 . Nucleic acid‐based fluorescence sensors for detecting proteins . Anal. Chem. , 77 : 1147 – 1156 .
  • Ikebukuro , K. , Kiyohara , C. and Sode , K. 2004 . Electrochemical detection of protein using a double aptamer sandwich . Anal. Lett. , 37 ( 14 ) : 2901 – 2909 .
  • Ikebukuro , K. , Kiyohara , C. and Sode , K. 2005 . Novel electrochemical sensor system for protein using the aptamers in sandwich manner . Biosens. Bioelectron. , 20 : 2168 – 2172 .
  • Imai , S. , Mizuno , H. , Suzuki , M. , Takeuchi , T. , Tamiya , E. , Mashige , F. , Ohkubo , A. and Karube , I. 1994 . Total urinary protein sensor based on a piezoelectric quartz crystal . Anal. Chim. Acta , 292 : 65 – 70 .
  • Jayasena , S. D. 1999 . Aptamers: an emerging class of molecules that rival antibodies in diagnostics . Clin. Chem. , 45 : 1628 – 1650 .
  • Jenison , R. , La , H. , Haeberli , A. , Ostroff , R. and Polisky , B. 2001 . Silicon‐based biosensors for rapid detection of protein or nucleic acid targets . Clin. Chem. , 47 ( 10 ) : 1894 – 1900 .
  • Kandimalla , V. B. and Ju , H. 2004 . New horizons with a multi dimensional tool for applications in analytical chemistry—aptamer . Anal. Lett. , 37 ( 11 ) : 2215 – 2233 .
  • Kim , J.‐H. , Cho , J.‐H. , Cha , G. S. , Lee , C.‐W. , Kim , H.‐B. and Paek , S.‐H. 2000 . Conductimetric membrane strip immunosensor with polyaniline‐bound gold colloids as signal generator . Biosens. Bioelectron. , 14 : 907 – 915 .
  • Kirby , R. , Cho , E. J. , Gehrke , B. , Bayer , T. , Park , Y. S. , Neikirk , D. P. , McDevitt , J. T. and Ellington , A. D. 2004 . Aptamer‐based sensor arrays for the detection and quantitation of proteins . Anal. Chem. , 76 : 4066 – 4075 .
  • Koßlinger , C. , Drost , S. , Aberl , F. , Wolf , H. , Koch , S. and Woias , P. 1992 . A quartz crystal biosensor for measurement in liquids . Biosens. Bioelectron. B , 7 : 397 – 404 .
  • Kojima , K. , Hiratsuka , A. , Suzuki , H. , Yano , K. , Ikebukuro , K. and Karube , I. 2003 . Electrochemical protein chip with arrayed immunosensors with antibodies immobilized in a plasma‐polymerized film . Anal. Chem. , 75 : 1116 – 1122 .
  • Konry , T. , Novoa , A. , Shemer‐Avni , Y. , Hanuka , N. , Cosnier , S. , Lepellec , A. and Marks , R. S. 2005 . Optical fiber immunosensor based on a poly(pyrrole‐benzophenone) film for the detection of antibodies to viral antigen . Anal. Chem. , 77 : 1771 – 1779 .
  • Lee , M. and Walt , D. R. 2000 . A fiber‐optic microarray biosensor using aptamers as receptors . Anal. Biochem. , 282 : 142 – 146 .
  • Lee , J. W. , Sim , S. J. , Cho , S. M. and Lee , J. 2005 . Characterization of a self‐assembled monolayer of thiol on a gold surface and the fabrication of a biosensor chip based on surface plasmon resonance for detecting anti‐GAD antibody . Biosens. Bioelectron. , 20 : 1422 – 1427 .
  • Ligler , F. S. , Taitt , C. R. , Shriver‐Lake , L. C. , Sapsford , K. E. , Shubin , Y. and Golden , J. P. 2003 . Array biosensor for detection of toxins . Anal. Bioanal. Chem. , 377 : 469 – 477 .
  • Lin , V. S.‐Y. , Motesharei , K. , Dancil , K.‐P. S. , Sailor , M. J. and Ghadiri , M. R. 1997 . A porous silicon‐based optical interferometric biosensor . Science , 278 : 840 – 843 .
  • Liss , M. , Petersen , B. , Wolf , H. and Prohaska , E. 2002 . An aptamer‐based quartz crystal protein biosensor . Anal. Chem. , 74 : 4488 – 4495 .
  • Lowry , O. H. , Rosebrough , N. J. , Farr , A. L. and Randall , R. J. 1951 . Protein measurement with the folin phenol reagent . J. Biol. Chem. , 193 : 265 – 275 .
  • Luzi , E. , Minunni , M. , Tombelli , S. and Mascini , M. 2003 . New trends in affinity sensing: aptamers for ligand binding . Trends in Anal. Chem. , 22 ( 11 ) : 810 – 818 .
  • Mahony , J. O. , Nolan , K. , Smyth , M. R. and Mizaikoff , B. 2005 . Molecularly imprinted polymers—potential and challenges in analytical chemistry . Anal. Chim. Acta , 534 : 31 – 39 .
  • Mascini , M. and Giardini , R. 1980 . Potentiometric determination of proteins with an ammonia sensor . Anal. Chim. Acta , 114 : 329 – 334 .
  • Matoba , T. , Ishimaru , Y. and Iida , T. 2001 . Characteristics of a protein sensor for monitoring various proteins using thermophilic protease, thermolysin . Chemical Sensors , 17 ( suppl. A ) : 166 – 168 .
  • McCauley , T. G. , Hamaguchi , N. and Stanton , M. 2003 . Aptamer‐based biosensor arrays for detection and quantification of biological macromolecules . Anal. Biochem. , 319 : 244 – 250 .
  • McCormack , T. , O'Keeffe , G. , MacCraith , B. D. and O'Kennedy , R. 1997 . Optical immunosensing of lactate dehydrogenase (LDH) . Sens. Act. B , 41 : 89 – 96 .
  • Minunni , M. , Tombelli , S. , Gullotto , A. , Luzi , E. and Mascini , M. 2004 . Development of biosensors with aptamers as bio‐recognition element: the case of HIV‐1 Tat protein . Biosens. Bioelectron. , 20 : 1149 – 1156 .
  • Movileanu , L. , Howorka , S. , Braha , O. and Bayley , H. 2000 . Detecting protein analytes that modulate transmembrane movement of a polymer chain within a single protein pore . Nature , 18 : 1091 – 1095 .
  • Muller‐Renaud , S. , Dupont , D. and Dulieu , P. 2004 . Quantification of β‐casein in milk and cheese using an optical immunosensor . J. Agric. Food Chem. , 52 : 659 – 664 .
  • Muratsugu , M. , Ohta , F. , Miya , Y. , Hosokawa , T. , Kurosawa , S. , Kamo , N. and Ikeda , H. 1993 . Quartz crystal microbalance for the detection of microgram quantities of human serum albumin: relationship between the frequency change and the mass of protein adsorbed . Anal. Chem. , 65 : 2933 – 2937 .
  • Narang , U. , Anderson , G. P. , Ligler , F. S. and Burans , J. 1997 . Fiber optic‐based biosensor for ricin . Biosens. Bioelectron. , 12 ( 9–10 ) : 937 – 945 .
  • O'Regan , T. M. , Pravda , M. , O'Sullivan , C. K. and Guilbault , G. G. 2002 . Development of a disposable immunosensor for the detection of human heart fatty‐acid binding protein in human whole blood using screen‐printed carbon electrodes . Talanta , 57 : 501 – 510 .
  • Palecek , E. , Masarik , M. , Kizek , R. , Kuhlmeier , D. , Hassmann , J. and Schulein , J. 2004 . Sensitive electrochemical determination of unlabeled MutS protein and detection of point mutations in DNA . Anal. Chem. , 76 : 5930 – 5936 .
  • Papkovsky , D. B. , O'Riordan , T. C. and Guilbault , G. G. 1999 . An immunosensor based on the glucose oxidase label and optical oxygen detection . Anal. Chem. , 71 : 1568 – 1573 .
  • Pei , R. , Yang , X. and Wang , E. 2001 . Enhanced surface plasmon resonance immunosensing using a streptavidin‐biotinylated protein complex . Analyst , 126 : 4 – 6 .
  • Pepper , J. , Noring , R. , Klempner , M. , Cunningham , B. , Petrovich , A. , Bousquet , R. , Clapp , C. , Brady , J. and Hugh , B. 2003 . Detection of proteins and intact micoorganisms using microfabricated flexural plate silicon resonator arrays . Sens. Act. B , 96 : 565 – 575 .
  • Plowman , T. E. , Reichert , W. M. , Peters , C. R. , Wang , H. K. , Christensen , D. A. and Herron , J. N. 1996 . Femtomolar sensitivity using a channel‐etched thin film waveguide fluoroimmunosensor . Biosens. Bioelectron. , 11 ( 1/2 ) : 149 – 160 .
  • Potyrailo , R. A. , Conrad , R. C. , Ellington , A. D. and Hieftje , G. M. 1998 . Adapting selected nucleic acid ligands (aptamers) to biosensors . Anal. Chem. , 70 : 3419 – 3425 .
  • Preejith , P. V. , Lim , C. S. , Kishen , A. , John , M. S. and Asundi , A. 2003 . Total protein measurement using a fiber‐optic evanescent wave‐based biosensor . Biotechnol. Lett. , 25 : 105 – 110 .
  • Radu , G. L. and Coulet , P. R. 1993 . Amperometric peptide sensor for protein determination . Anal. Lett. , 26 ( 7 ) : 1321 – 1332 .
  • Raiteri , R. , Grattarola , M. , Butt , H.‐J. and Skladal , P. 2001 . Micromechanical cantilever‐based biosensors . Sens. Actuators B , 79 : 115 – 126 .
  • Rao , V. K. , Rai , G. P. , Agarwal , G. S. and Suresh , S. 2005 . Amperometric immunosensor for detection of antibodies of Salmonella typhi in patient serum . Anal. Chim. Acta , 531 : 173 – 177 .
  • Rick , J. and Chou , T.‐C. 2005 . Enthalpy changes associated with protein binding to thin films . Biosens. Bioelectron. , 20 : 1878 – 1883 .
  • Sadik , O. A. and Wallace , G. G. 1993 . Pulsed amperometric detection of proteins using antibody containing conducting polymers . Anal. Chim. Acta , 279 : 209 – 212 .
  • Sapan , C. V. , Lundblad , R. L. and Price , N. C. 1999 . Colorimetric protein assay techniques . Biotechnol. Appl. Biochem. , 29 : 99 – 108 .
  • Sarkar , P. 2000 . One‐step separation‐free amperometric biosensor for the detection of protein . Microchem. J. , 64 : 283 – 290 .
  • Sarkar , P. and Turner , A. P.F. 1999 . Application of dual‐step potential on single screen‐printed modified carbon paste electrodes for detection of amino acids and proteins . Fresenius J. Anal. Chem. , 364 : 154 – 159 .
  • Savran , C. A. , Knudsen , S. M. , Ellington , A. D. and Manalis , S. R. 2004 . Micromechanical detection of proteins using aptamer‐based receptor molecules . Anal. Chem. , 76 : 3194 – 3198 .
  • Schlatter , D. , Barner , R. , Fattinger , C. , Huber , W. , Hubscher , J. , Hurst , J. , Koller , H. , Mangold , C. and Muller , F. 1993 . The difference interferometer: application as a direct affinity sensor . Biosens. Bioelectron. , 8 : 109 – 116 .
  • Schreiber , A. , Feldbrugge , R. , Key , G. , Glatz , J. F.C. and Spener , F. 1997 . An immunosensor based on disposable electrodes for rapid estimation of fatty acid‐binding protein, an early marker of myocardial infarction . Biosens. Bioelectron. , 12 ( 11 ) : 1131 – 1137 .
  • Setford , S. J. , White , S. F. and Bolbot , J. A. 2002 . Measurement of protein using an electrochemical bi‐enzyme sensor . Biosens. Bioelectron. , 17 : 79 – 86 .
  • Smith , P. K. , Krohn , R. I. , Hermanson , G. T. , Mallia , A. K. , Gartner , F. H. , Provenzano , M. D. , Fujimoto , E. K. , Goeke , N. M. , Olson , B. J. and Klenk , D. C. 1985 . Measurement of protein using bicinchoninic acid . Anal. Biochem. , 150 ( 1 ) : 76 – 85 .
  • Song , X. , Shi , J. and Swanson , B. 2000 . Flow cytometry‐based biosensor for detection of multivalent proteins . Anal. Biochem. , 284 : 35 – 41 .
  • Spiridonova , V. A. and Kopylov , A. M.N. 2002 . DNA aptamers as radically new recognition elements for biosensors . Biochemistry , 67 ( 6 ) : 706 – 709 . (Moscow)
  • Stefan , R.‐I. , Makhafola , M. A. and van Staden , J. K.F. 2002 . Bienzymatic amperometric sensor for protein assay in milk . Prep. Biochem. Biotechnol. , 32 ( 2 ) : 135 – 142 .
  • Tang , D. , Yuan , R. , Chai , Y. , Zhong , X. , Liu , Y. and Dai , J. 2004 . Novel potentiometric immunosensor for the detection of diphtheria antigen based on colloidal gold and polyvinyl butyral as matrixes . Biochem. Eng. J. , 22 : 43 – 49 .
  • Toyota , T. , Kuan , S. S. and Guilbault , G. G. 1985 . Determination of total protein in serum using a tyrosinase enzyme electrode . Anal. Chem. , 57 : 1925 – 1928 .
  • Tsukagoshi , K. , Nakahama , K. and Nakajima , R. 2004 . Direct detection of biomolecules in a capillary electrophoresis—chemiluminescence detection system . Anal. Chem. , 76 : 4410 – 4415 .
  • Vollmer , F. , Braun , D. , Libchaber , A. , Khoshsima , M. , Teraoka , L. and Arnold , S. 2002 . Protein detection by optical shift of a resonant microcavity . Appl. Phys. Lett. , 80 ( 21 ) : 4057 – 4059 .
  • Wee , K. W. , Kang , G. Y. , Park , J. , Kang , J. Y. , Yoon , D. S. , Park , J. H. and Kim , T. S. 2005 . Novel electrical detection of label‐free disease marker proteins using piezoresistive self‐sensing micro‐cantilevers . Biosens. Bioelectron. , 20 : 1932 – 1938 .
  • Whelan , R. J. and Zare , R. N. 2003 . Single‐cell immunosensors for protein detection . Biosens Bioelectron. , 19 : 331 – 336 .
  • Wilson , M. S. 2005 . Electrochemical immunosensors for the simultaneous detection of two tumor markers . Anal. Chem. , 77 : 1496 – 1502 .
  • Wohlstadter , J. N. , Wilbur , J. L. , Sigal , G. B. , Biebuyck , H. A. , Billadeau , M. A. , Dong , L. , Fischer , A. B. , Gudibande , S. R. , Jameison , S. H. , Kenten , J. H. , Leginus , J. , Leland , J. K. , Massey , R. J. and Wohlstadter , S. J. 2003 . Carbon nanotube‐based biosensor . Adv. Mater. , 15 ( 4 ) : 1184 – 1187 .
  • Wu , G. , Datar , R. H. , Hansen , K. M. , Thundat , T. , Cote , R. J. and Majumdar , A. 2001 . Bioassay of prostate‐specific antigen (PSA) using microcantilevers . Nature Biotechnol. , 19 : 856 – 860 .
  • Zaia , D. A.M. , Verri , W. A. Jr. and Zaia , C. T.B.V. 1999 . Determination of total proteins: a study of reaction between quinones and proteins . Talanta , 49 : 373 – 376 .

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