Biosensors based on nanoparticles and electrochemical detection

Frontiers of Nanoscience

Volumn 4, Issue 1, 2012, Pages 247-267

  Polo, Ester ^a   Puertas, Sara ^a   Batalla, Pilar ^b  

^a UNIVERSITY OF ZARAGOZA   (Spain)

^b UNIVERSITY OF ALCALÁ   (Spain)

Author keywords

[No Author keywords available]

Indexed keywords

NANOPARTICLES;

ELECTROCHEMICAL DETECTION;

CHEMICAL DETECTION;

EID: 84872778042     PISSN: 18762778     EISSN: 1876276X     Source Type: Book Series    
DOI: 10.1016/B978-0-12-415769-9.00010-8     Document Type: Chapter

References (107)

1. Faraday M. Experimental relations of gold (and other metals) to light. Philos Trans R Soc Lond 1857;147:145-81.
2. Chow G, Markowitz MA, Rayne R, Dunn DN, Singh A. Phospholipid mediated synthesis and characterization of gold nanoparticles. J Colloid Interface Sci 1996;183:135-42.
3. Chen S, Kimura K. Synthesis and characterization of carboxylate-modified gold nanoparticle powders dispersible in water. Langmuir 1999;15:1075-82.
4. Lin J, Zhou W, Kumbhar A, Wiemann J, Fang J, Carpenter EE, et al. Gold-coated iron (Fe@Au) nanoparticles: synthesis, characterization, and magnetic field-induced self-assembly. J Solid State Chem 2001;159:26-31.
5. Mukherjee P, Patra CR, Ghosh A, Kumar R, Sastry M. Characterization and catalytic activity of gold nanoparticles synthesized by autoreduction of aqueous chloroaurate ions with fumed silica. Chem Mater 2002;14:1678-84.
6. Chen MMY, Katz A. Synthesis and characterization of gold-silica nanoparticles incorporating a mercaptosilane core-shell interface. Langmuir 2002;18:8566-72.
7. Zhou JC, Wang X, Xue M, Xu Z, Hamasaki T, Yang Y, et al. Characterization of gold nanoparticle binding to microtubule filaments. Mater Sci Eng C 2010;30:20-6.
8. FaramarziMA, Forootanfar H. Biosynthesis and characterization of gold nanoparticles produced by laccase from Paraconiothyrium variabile. Colloids Surf B Biointerfaces 2011;87:23-7.
9. Mahdihassan S. Cinnabar-gold as the best alchemical drug of longevity, called Makaradhwaja in India. Am J Chin Med 1985;13:93-108.
10. Shaw CF. Gold-based therapeutic agents. Chem Rev 1999;99:2589-600.
11. Panyala NR, Pña-Méndez EM, Havel J. Gold and nano-gold in medicine: overview, toxicology and perspectives. J Appl Biomed 2009;7:75-91.
12. Paciotti GF, Myer L, Weinreich D, Goia D, Pavel N, McLaughlin RE, et al. Colloidal gold: a novel nanoparticle vector for tumor directed drug delivery. Drug Deliv 2004;11:169-83.
13. Yang P-H, Sun X, Chiu J-F, Sun H, He Q-Y. Transferrin-mediated gold nanoparticle cellular uptake. Bioconjug Chem 2005;16:494-6.
14. Wieder ME, Hone DC, Cook MJ, Handsley MM, Gavrilovic J, Russell DA. Intracellular photodynamic therapy with photosensitizer-nanoparticle conjugates: cancer therapy using a "Trojan horse" Photochem Photobiol Sci 2006;5:727-34.
15. Saxena U, Chakraborty M, Goswami P. Covalent immobilization of cholesterol oxidase on self-assembled gold nanoparticles for highly sensitive amperometric detection of cholesterol in real samples. Biosens Bioelectron 2011;26:3037-43.
16. Haghighi B, Bozorgzadeh S, Gorton L. Fabrication of a novel electrochemiluminescence glucose biosensor using Au nanoparticles decorated multiwalled carbon nanotubes. Sens Actuators B Chem 2011;155:577-83.
17. de la Escosura-Muñiz A, Sánchez-Espinel C, Diáz-Freitas B, Gónzalez-Fernández A, Maltez-da CostaM, Mercoçi A. Rapid identification and quantification of tumor cells using an electrocatalytic method based on gold nanoparticles. Anal Chem 2009;81:10268-74.
18. Wang Q, Huang J, Yang X, Wang K, He L, Li X, et al. Surface plasmon resonance detection of small molecule using split aptamer fragments. Sens Actuators B Chem 2011;156:893-8.
19. Sepúlveda B, Angelomé PC, Lechuga LM, Liz-Marzán LM. LSPR-based nanobiosensors. Nano Today 2009;4:244-51.
20. Heurich M, Kadir MKA, Tothill IE. An electrochemical sensor based on carboxymethylated dextran modified gold surface for ochratoxin A analysis. Sens Actuators B Chem 2011;156: 162-8.
21. Liu S, Yuan R, Chai Y, Su H. A label-free amperometric immunosensor based on horseradish peroxidase functionalized carbon nanotubes and bilayer gold nanoparticles. Sens Actuators B Chem 2011;156:388-94.
22. Rezaei B, Saghebdoust M, Sorkhe AM, Majidi N. Generation of a doxorubicin immunosensor based on a specific monoclonal antibody-nanogold-modified electrode. Electrochim Acta 2011;56:5702-6.
23. He Y, Zhang S, Zhang X, Baloda M, Gurung AS, Xu H, et al. Ultrasensitive nucleic acid biosensor based on enzyme-gold nanoparticle dual label and lateral flow strip biosensor. Biosens Bioelectron 2011;26:2018-24.
24. Girotti S, Eremin S, Montoya A, Moreno MJ, Caputo P, D'Elia M, et al. Development of a chemiluminescent ELISA and a colloidal gold-based LFIA for TNT detection. Anal Bioanal Chem 2010;396:687-95.
25. Urusov AE, Kostenko SN, Sveshnikov PG, Zherdev AV, Dzantiev BB. Ochratoxin A immunoassay with surface plasmon resonance registration: lowering limit of detection by the use of colloidal gold immunoconjugates. Sens Actuators B Chem 2011;156:343-9.
26. Wang X, Xu Y, Chen Y, Li L, Liu F, Li N. The gold-nanoparticle-based surface plasmon resonance light scattering and visual DNA aptasensor for lysozyme. Anal Bioanal Chem 2011;400:2085-91.
27. Hao R-Z, Song H-B, Zuo G-M, Yang R-F, Wei H-P, Wang D-B, et al. DNA probe functionalized QCM biosensor based on gold nanoparticle amplification for Bacillus anthracis detection. Biosens Bioelectron 2011;26:3398-404.
28. Chu X, Zhao Z-L, Shen G-L, Yu R-Q. Quartz crystal microbalance immunoassay with dendritic amplification using colloidal gold immunocomplex. Sens Actuators B Chem 2006;114:696-704.
29. Wei X-L, Mo Z-H, Li B, Wei J-M. Disruption of HepG2 cell adhesion by gold nanoparticle and Paclitaxel disclosed by in situ QCM measurement. Colloids Surf B Biointerfaces 2007;59:100-4.
30. Sener G, Ozgur E, Yilmaz E, Uzun L, Say R, Denizli A. Quartz crystal microbalance based nanosensor for lysozyme detection with lysozyme imprinted nanoparticles. Biosens Bioelectron 2010;26:815-21.
31. Ansari AA, Alhoshan M, Alsalhi MS, Aldwayyan AS. Prospects of nanotechnology in clinical immunodiagnostics. Sensors 2010;10:6535-81.
32. Rosi NL, Mirkin CA. Nanostructures in biodiagnostics. Chem Rev 2005;105:1547-62.
33. Pingarron JM, Yáñez-Sedeño P, González-Cortés A. Gold nanoparticle-based electrochemical biosensors. Electrochim Acta 2008;53:5848-66.
34. Siangproh W, Dungchai W, Rattanarat P, Chailapakul O. Nanoparticle-based electrochemical detection in conventional and miniaturized systems and their bioanalytical applications: a review. Anal Chim Acta 2011;690:10-25.
35. Willner I, Willner B. Biomolecule-based nanomaterials and nanostructures. Nano Lett 2010;10:3805-15.
36. Xiao Y, Patolsky F, Katz E, Hainfield JF, Willner I. Plugging intro enzymes: nanowiring of redox enzymes by a gold nanoparticle. Science 2003;299(5614):1877-81.
37. Ozsoz M, Erdem A, Kerman K, Ozkan D, Tugrul B, Topcuoglu N, et al. Electrochemical genosensor based on colloidal nanoparticles for the detection of Factor V Leiden mutation using disposable pencil graphite electrodes. Anal Chem 2003;75(9):2181-7.
38. Shulga O, Kirchhoff JR. An acetylcholinesterase enzyme electrode stabilized by an electrodeposited gold nanoparticle layer. Electrochem Commun 2007;9:935-40.
39. Zhu Y, Son JI, Shim Y-B. Amplification strategy base on gold nanoparticle-decorated carbon nanotubes for neomycin immunosensors. Biosens Bioelectron 2010;26:1002-8.
40. Carralero V, Mena ML, Gonzalez-Cortes A, Yañez-Sedeño P, Pingarron JM. Development of a high analytical performance-tyrosinase biosensor base on a composite graphite-Teflon electrode modified with gold nanoparticles. Biosens Bioelectron 2006;22(5):730-6.
41. Çubukçu M, Timur S, Anik U. Examination of performance of glassy carbon paste electrode modified with gold nanoparticle and xanthine oxidase for xanthine and hypoxanthine detection. Talanta 2007;74(3):434-9.
42. Liu S, Ju H. Electrocatalysis via direct electrochemistry of myoglobin immobilized on colloidal gold nanoparticles. Electroanalysis 2003;15(18):1488-93.
43. Zhang S, Wang N, Yu H, Niu Y, Sun C. Covalent attachment of glucose oxidase to an Au electrode modified with gold nanoparticles for use as glucose biosensor. Bioelectrochemistry 2005;67(1):15-22.
44. Mani V, Chikkaveeraiah BV, Patel V, Gutkind JS, Rusling JF. Ultrasensitive Immunosensor for cancer biomarker proteins using gold nanoparticle film electrodes and multienzymeparticle amplification. ACS Nano 2009;3(3):585-94.
45. Mena ML, Yáñez-Sedeño P, Pingarrón JM. A comparison of different strategies for the construction of amperometric enzyme biosensors using gold nanoparticle-modified electrode. Anal Biochem 2005;336(1):20-7.
46. Wang M, Sun C, Wang L, Ji X, Bai Y, Li T, et al. Electrochemical detection of DNA immobilized on gold colloid particles modified self-assembled monolayer electrode with silver nanoparticle label. J Pharm Biomed Anal 2003;33(5):1117-25.
47. Drummond TG, Hill MG, Barton JK. Electrochemical DNA sensors. Nat Biotechnol 2003; 21(10):1192-9.
48. Pérez-López B, Merkoçi A. Nanoparticles for the development of improved (bio) sensing systems. Anal Bioanal Chem 2011;399:1577-90.
49. Chumbimuni-Torres KY, Dai Z, Rubinova N, Xiang Y, Pretsch E, Wang J, et al. Potentiometric biosensing for proteins with ultrasensitive ion-selective microelectrodes and nanoparticle labels. J Am Chem Soc 2006;128(42):13676-7.
50. Park S-J, Taton TA, Mirkin CA. Array-based electrical detection of DNA with nanoparticle probes. Science 2002;295(5559):1503-6.
51. Hrapovic S, Liu Y, Male KB, Luong JHT. Electrochemical biosensing platforms using platinum nanoparticles and carbon nanotubes. Anal Chem 2004;76:1083-8.
52. Willner I, Katz E. Integrated nanoparticle-biomolecule hybrid systems: synthesis, properties, and applications. Angew Chem 2004;43:6042-108.
53. Pérez-López B, Merkoçi A. Nanoparticles for the development of improved (bio) sensing systems. Anal Bioanal Chem 2011;399:1577-90.
54. Sperling RA, Gil PR, Zhang F, Zanella M, Parak WJ. Biological applications of gold nanoparticles. Chem Soc Rev 2008;37:1896-908.
55. Daniel MC, Astruc D. Gold nanoparticles: assembly, supramolecular chemistry, quantumsize- related properties, and applications toward biology, catalysis and nanotechnology. Chem Rev 2004;104:293-346.
56. Jain PK, Lee KS, El-Sayed I-H, El-Sayed MA. Calculated absorption and scattering properties of gold nanoparticles of different size, shape, and composition: applications in biological imaging and biomedicine. J Phys Chem B 2006;110:7238-48.
57. Elghanian R, Storhoff JJ, Mucic RC, Letsinger RL, Mirkin CA. Selective colorimetric detection of polynucleotides based on the distance-dependent optical properties of gold nanoparticles. Science 1997;277:1078-80.
58. Thaxton CS, Georganopoulou DG, Mirkin CA. Gold nanoparticle probes for the detection of nucleic acid targets. Clin Chim Acta 2006;363:120-6.
59. Kim Y, Johnson RC, Hupp JT. Gold nanoparticle based sensing of "spectroscopically silent" heavy metal ions. Nano Lett 2001;1(4):165-7.
60. Wang Z, Levy R, Fernin DG, Brust M. The peptide route to multifunctional gold nanoparticles. Bioconjug Chem 2005;16:497-500.
61. Thanh NTK, Rosenzweig Z. Development of an aggregation-base immunoassay for antiprotein A using gold nanoparticles. Anal Chem 2002;74:1624-8.
62. Hirsch LR, Jackson JB, Lee A, Halas NJ, West JL. A whole blood immunoassay using gold nanoshells. Anal Chem 2003;75:2377-81.
63. Hodnik V, Anderluh G. Toxin detection by surface plasmon resonance. Sensors 2009;9:1339-54.
64. Lu Y, Liu J. A colorimetric lead biosensor using DNAzyme-directed assembly of gold nanoparticles. J Am Chem Soc 2003;125(22):6642-3.
65. Kanaras AG, Wang Z, Brust M, Cosstick R, Bates AD. Enzymatic disassembly of DNAgold nanostructures. Small 2007;3(4):590-4.
66. Stewart ME, Anderton CR, Thompson LB, Maria J, Gray SK, Rogers JA, et al. Nanostructured plasmonic sensors. Chem Rev 2008;108:494-521.
67. Matusi J, Akamatsu K, Hara N, Miyoshi D, Nawafune H, Tamaki K, et al. SPR sensor chip for detection of small molecules using molecularly imprinted polymer with embedded gold nanoparticles. Anal Chem 2005;77:2882-8.
68. He L, Musick MD, Nicewarner SR, Salinas FG, Benkovic SJ, Natan MJ, et al. Colloidal Au-enhanced surface plasmon resonance for ultrasensitive detection of DNA hybridization. J Am Chem Soc 2000;122(38):9071-7.
69. Lioubashevski O, Chegel VI, Patolsky F, Katz E, Willner I. Enzyme-catalyzed bio-pumping of electrons into Au-nanoparticles: a surface plasmon resonance and electrochemical study. J Am Chem Soc 2004;126:7133-43.
70. Haes AJ, Zou S, Schatz GC, Van Duyne RP. A nanoscale optical biosensor: the long range distance dependence of the localized surface plasmon resonance of nobel metal nanoparticles. J Phys Chem B 2004;108:109-16.
71. Raschke G, Kowarik S, Franzl T, Sönnichsen C, Klar TA, Feldmann J. Biomelecular recognition based on single gold nanoparticle light scattering. Nano Lett 2003;3(7):935-8.
72. Zhao J, Zhang X, Yonzan CR, Haes AJ, Van Duyne RP. Localized surface plasmon resonance biosensors. Nanomedicine 2006;1(2):219-28.
73. Lee KS, El-Sayed MA. Gold and silver nanoparticles in sensing and imaging: sensitivity of plasmon response to size, shape, and metal composition. J Phys Chem B 2006;110:19220-5.
74. Nehl CL, Liao HW, Hafner JH. Optical properties of star-shaped gold nanoparticles. Nano Lett 2006;6:683-8.
75. Dahlin A, Zach M, Rindzevicius T, Käll M, Sutherland DS, Höök F. Localized surface plasmon resonance sensing of lipid-membrane mediated biorecognition events. J Am Chem Soc 2005;127:5043-8.
76. Haes AJ, Hall WP, Chang L, Klein WL, Van Duyne RP. A localized surface plasmon resonance biosensor: first steps toward an assay for Alzheimer's disease. Nano Lett 2004;4(6): 1029-34.
77. Yguerabide J, Yguerabide EE. Light-scattering submicroscopic particles as highly fluorescent analogs and their use as traces labels in clinical and biological applications. Anal Biochem 1998;262:137-56.
78. Taton TA, Mirkin CA, Letsinger RL. Scanometric DNA array detection with nanoparticle probes. Science 2000;289:1757-60.
79. Nam JM, Thaxton CS, Mirkin CA. Nanoparticle-based bio-bar codes for the ultrasensitive detection of proteins. Science 2003;301:1884-6.
80. Georganopoulou DG, Chang L, Nam JM, Thaxton CS, Mufson EJ, Klein WL, et al. Nanoparticle-based detection in cerebral spinal fluid of a soluble pathogenic biomarker for Alzheimer's disease. Proc Natl Acad Sci USA 2005;102:2273-6.
81. Xiao X, Zhao HB, Ozaki Y. Surface-enhanced Raman scattering for protein detection. Anal Bioanal Chem 2009;394:1719-27.
82. Paez JG, Jänne PA, Lee JC, Tracy S, Greulich H, Gabriel S, et al. EGFR mutations in lung cancer: correlation with clinical response to gefitinib therapy. Science 2004;304:1497-500.
83. Lynch TJ, Bell DW, Sordella R, Gurubhagavatula S, Okimoto RA, Branningan BW, et al. Activating mutations in the epidermal growth factor receptor underlying responsiveness of non-small-cell lung cancer to gefitinib. N Engl J Med 2004;350:2129-39.
84. Kneipp J, Kneipp H, McLaughlin M, Brown D, Kneipp K. In vivo molecular probing of cellular compartments with gold nanoparticles and nanoaggregates. Nano Lett 2006;6(10):2225-31.
85. Kneipp K, Kneipp H, Kneipp J. Surface-enhanced Raman scattering in local optical fields of silver and gold nanoaggregates-from single-molecule Raman spectroscopy to ultrasensitive probing in live cells. Acc Chem Res 2006;39(7):443-50.
86. Dubertret B, Calame M, Libchaber AJ. Single-mismatch detection using gold-quenched fluorescent oligonucleotides. Nat Biotechnol 2001;19:365-70.
87. Choi DH, Lee SK, Oh YK, Bae BW, Lee SD, Kim S, et al. A dual gold nanoparticle conjugate based lateral flow assay (LFA) method for the analysis of troponin I. Biosens Bioelectron 2010;25:1999-2002.
88. Cao X, Ye Y, Liu S. Gold nanoparticle-based signal amplification for biosensing. Anal Chem 2011;417:1-16.
89. Zou Z, Du D, Wang J, Smith JN, Timchalk C, Li Y, et al. Quantum dot-based immunochromatographic fluorescent biosensor for biomonitoring trichloropyridinol, a biomarker of exposure to chlorpyrifos. Anal Chem 2010;82:5125-33.
90. Wang Y, Xu H, Wei M, Gu H, Xu Q, Zhu W. Study of superparamagnetic nanoparticles as labels in the quantitative lateral flow immunoassay. Mater Sci Eng C 2009;29:714-8.
91. Taton K, Johnson D, Guire P, Lange E, Tondra M. Lateral flow immunoassay using magnetoresistive sensors. J Magn Magn Mater 2009;321:1679-82.
92. Komano A, Maruko H, Sekiguchi H, Seto Y. Detection of saxitoxin in counterterrorism using a commercial lateral flow immunoassay kit. Forensic Toxicol 2010;29:38-43.
93. Noguera P, Posthuma-Trumpie GA, van Tuil M, van der Wal FJ, de Boer A, Moers APHA, et al. Carbon nanoparticles in lateral flow methods to detect genes encoding virulence factors of Shiga toxin-producing Escherichia coli. Anal Bioanal Chem 2011;399:831-8.
94. Xu H, Mao X, Zeng Q, Wang S, Kawde A-N, Liu G. Aptamer-functionalized gold nanoparticles as probes in a dry-reagent strip biosensor for protein analysis. Anal Chem 2009;81: 669-75.
95. Wang X, Li K, Shi D, Jin X, Xiong N, Peng F, et al. Development and validation of an immunochromatographic assay for rapid detection of sulfadiazine in eggs and chickens. J Chromatogr B Analyt Technol Biomed Life Sci 2007;847:289-95.
96. Shim W-B, Kim K-Y, Chung D-H. Development and validation of a gold nanoparticle immunochromatographic assay (ICG) for the detection of zearalenone. J Agric Food Chem 2009;57:4035-41.
97. Biagini RE, Sammons DL, Smith JP, MacKenzie BA, Striley CAF, Snawder JE, et al. Rapid, sensitive, and specific lateral-flow immunochromatographic device to measure anti-anthrax protective antigen immunoglobulin G in serum and whole blood. Clin Vaccine Immunol 2006;13:541-6.
98. Huang X, Xuan X, Verdida RA, Zhang S, Yokoyama N, Xu L, et al. Immunochromatographic test for simultaneous serodiagnosis of Babesia caballi and B. equi infections in horses. Society 2006;13:553-5.
99. Jiang T, Liang Z, Ren W, Chen J, Zhi X, Qi G, et al. Development and validation of a lateral flow immunoassay using colloidal gold for the identification of serotype-specific foot-andmouth disease virus O, A and Asia 1. J Virol Methods 2011;171:74-80.
100. Mao X, Ma Y, Zhang A, Zhang L, Zeng L, Liu G. Disposable nucleic acid biosensors based on gold nanoparticle probes and lateral flow strip. Anal Chem 2009;81:1660-8.
101. Liu G, Mao X, Phillips JA, Xu H, Tan W, Zeng L. Aptamer-nanoparticle strip biosensor for sensitive detection of cancer cells. Anal Chem 2009;81:10013-8.
102. Zhou P, Lu Y, Zhu J, Hong J, Li B, Zhou J, et al. Nanocolloidal gold-based immunoassay for the detection of the N-methylcarbamate pesticide carbofuran. J Agric Food Chem 2004;52:4355-9.
103. Shim W-B, Yang Z-Y, Kim J-Y, Choi J-G, Je J-H, Kang S-J, et al. Immunochromatography using colloidal gold-antibody probe for the detection of atrazine in water samples. J Agric Food Chem 2006;54:9728-34.
104. Ferreira GNM, Da-Silva AC, Tomé B. Acoustic wave biosensors: physical models and biological applications of quartz crystal microbalance. Trends Biotechnol 2009;27(12):689-97.
105. Tang D-Q, Zhang D-J, Tang D-Y, Ai H. Amplification of the antigen-antibody interaction from quartz crystal microbalance immunosensors via back-filling immobilization of nanogold on biorecognition surface. J Immunol Methods 2006;316:144-52.
106. Zhou XC, ÓShea SJ, Li SFY. Amplified microgravimetric gene sensor using Au nanoparticle modified oligonucleotides. Chem Commun 2000;953-4.
107. Lin L, Zhao H, Li J, Tang J, Duan M, Jiang L. Study on colloidal Au-enhanced DNA sensing by quartz crystal microbalance. Biochem Biophys Res Commun 2000;274, 817-20