One-pot preparation of uricase-poly(thiophene-3-boronic acid)-Pt nano composites for high-performance amperometric biosensing of uric acid

Sensors and Actuators, B: Chemical

Volumn 177, Issue , 2013, Pages 116-123

  Huang, Yi ^a   Bu, Lijuan ^a   Wang, Wen ^a   Qin, Xiaoli ^a   Li, Zou ^a   Huang, Zhao ^a   Fu, Yingchun ^a   Su, Xiaoli ^a   Xie, Qingji ^a   Yao, Shouzhuo ^a  

^a HUNAN NORMAL UNIVERSITY   (China)

Author keywords

Amperometric biosensing; Boronic acid glycoprotein binding; Polymeric nanocomposites; Uric acid; Uricase

Indexed keywords

BIOSENSING; BORONIC ACID-GLYCOPROTEIN BINDING; POLYMERIC NANOCOMPOSITES; URIC ACIDS; URICASE;

GLYCOPROTEINS; GOLD; ORGANIC ACIDS; THIOPHENE;

PLATINUM;

EID: 84871867146     PISSN: 09254005     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.snb.2012.10.101     Document Type: Article

References (52)

1. D. Lakshmi, M.J. Whitcombe, F. Davis, P.S. Sharma, and B.B. Prasad Electrochemical detection of uric acid in mixed and clinical samples: a review Electroanalysis 23 2011 305 320
2. http://en.wikipedia.org/wiki/Uric-acid, 2012 (accessed 01.10.12).
3. T. Zhang, X. Sun, and B. Liu Synthesis of positively charged CdTe quantum dots and detection for uric acid Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 79 2011 1566 1572
4. G.T.B. Sanders, A.J. Pasman, and F.J. Hoek Determination of uric acid with uricase and peroxidase Clinica Chimica Acta 101 1980 299 303 (Pubitemid 10168625)
5. R.K. Bera, A. Anoop, and C.R. Raj Enzyme-free colorimetric assay of serum uric acid Chemical Communications 47 2011 11498 11500
6. R. Kanďár, P. Drábková, and R. Hampl The determination of ascorbic acid and uric acid in human seminal plasma using an HPLC with UV detection Journal of Chromatography B 879 2011 2834 2839
7. T. Nakaminami, S.-i. Ito, S. Kuwabata, and H. Yoneyama Uricase-catalyzed oxidation of uric acid using an artificial electron acceptor and fabrication of amperometric uric acid sensors with use of a redox ladder polymer Analytical Chemistry 71 1999 1928 1934 (Pubitemid 29233152)
8. Z. Lin, Z. Chen, Y. Liu, J. Wang, and G. Chen An electrochemiluminescent biosensor for uric acid based on the electrochemiluminescence of bis-[3,4,6-trichloro-2-(pentyloxycarbonyl)-phenyl] oxalate on an ITO electrode modified by an electropolymerized nickel phthalocyanine film Analyst 133 2008 797 801 (Pubitemid 351713324)
9. C. Xiao, X. Chu, Y. Yang, X. Li, X. Zhang, and J. Chen Hollow nitrogen-doped carbon microspheres pyrolyzed from self-polymerized dopamine and its application in simultaneous electrochemical determination of uric acid, ascorbic acid and dopamine Biosensors and Bioelectronics 26 2011 2934 2939
10. S.S. Kumar, K. Kwak, and D. Lee Electrochemical sensing using quantum-sized gold nanoparticles Analytical Chemistry 83 2011 3244 3247
11. C.-L. Sun, C.-T. Chang, H.-H. Lee, J. Zhou, J. Wang, T.-K. Sham, and W.-F. Pong Microwave-assisted synthesis of a core-shell MWCNT/GONR heterostructure for the electrochemical detection of ascorbic acid, dopamine, and uric acid ACS Nano 5 2011 7788 7795
12. J.B. Raoof, R. Ojani, M. Amiri-Aref, and M. Baghayeri Electrodeposition of quercetin at a multi-walled carbon nanotubes modified glassy carbon electrode as a novel and efficient voltammetric sensor for simultaneous determination of levodopa, uric acid and tyramine Sensors and Actuators B: Chemical 166-167 2012 508 518
13. S.M. Usman Ali, N.H. Alvi, Z. Ibupoto, O. Nur, M. Willander, and B. Danielsson Selective potentiometric determination of uric acid with uricase immobilized on ZnO nanowires Sensors and Actuators B: Chemical 152 2011 241 247
14. H. Chu, X. Wei, M. Wu, J. Yan, and Y. Tu An electrochemiluminescent biosensor based on polypyrrole immobilized uricase for ultrasensitive uric acid detection Sensors and Actuators B: Chemical 163 2012 247 252
15. C. Mateo, J.M. Palomo, G. Fernandez-Lorente, J.M. Guisan, and R. Fernandez-Lafuente Improvement of enzyme activity, stability and selectivity via immobilization techniques Enzyme and Microbial Technology 40 2007 1451 1463 (Pubitemid 46482654)
16. N.C.M. Zanon, O.N. Oliveira Jr., and L. Caseli Immbolization of uricase enzyme in Langmuir and Langmuir-Blodgett films of fatty acids: possible use as a uric acid sensor Journal of Colloid and Interface Science 373 2012 69 74
17. J. Kan, X. Pan, and C. Chen Polyaniline-uricase biosensor prepared with template process Biosensors and Bioelectronics 19 2004 1635 1640 (Pubitemid 38622233)
18. X. Pan, S. Zhou, C. Chen, and J. Kan Preparation and properties of an uricase biosensor based on copolymer of o-aminophenol-aniline Sensors and Actuators B: Chemical 113 2006 329 334 (Pubitemid 43000346)
19. D. Chen, Q. Wang, J. Jin, P. Wu, H. Wang, S. Yu, H. Zhang, and C. Cai Low-potential detection of endogenous and physiological uric acid at uricase-thionine-single-walled carbon nanotube modified electrodes Analytical Chemistry 82 2010 2448 2455
20. S. Behera, and C.R. Raj Mercaptoethylpyrazine promoted electrochemistry of redox protein and amperometric biosensing of uric acid Biosensors and Bioelectronics 23 2007 556 561 (Pubitemid 47575900)
21. J.Y. Park, B.Y. Chang, H. Nam, and S.M. Park Selective electrochemical sensing of glycated hemoglobin (HbA1c) on thiophene-3-boronic acid self-assembled monolayer covered gold electrodes Analytical Chemistry 80 2008 8035 8044
22. A. Matsumoto, N. Sato, K. Kataoka, and Y. Miyahara Noninvasive sialic acid detection at cell membrane by using phenylboronic acid modified self-assembled monolayer gold electrode Journal of the American Chemical Society 131 2009 12022 12023
23. Z. Lin, J. Pang, H. Yang, Z. Cai, L. Zhang, and G. Chen One-pot synthesis of an organic-inorganic hybrid affinity monolithic column for specific capture of glycoproteins Chemical Communications 47 2011 9675 9677
24. A.P. Bapat, D. Roy, J.G. Ray, D.A. Savin, and B.S. Sumerlin Dynamic-covalent macromolecular stars with boronic ester linkages Journal of the American Chemical Society 133 2011 19832 19838
25. J.M. Abad, M. Vélez, C. Santamaría, J.M. Guisán, P.R. Matheus, L. Vázquez, I. Gazaryan, L. Gorton, T. Gibson, and V.M. Fernández Immobilization of peroxidase glycoprotein on gold electrodes modified with mixed epoxy-boronic acid monolayers Journal of the American Chemical Society 124 2002 12845 12853 (Pubitemid 35216008)
26. +-dependent enzymes by reconstitution and affinity interactions on phenylboronic acid monolayers associated with Au-electrodes Journal of the American Chemical Society 124 2002 14724 14735 (Pubitemid 35425047)
27. S. Liu, U. Wollenberger, J. Halámek, E. Leupold, W. Stöcklein, A. Warsinke, and F.W. Scheller Affinity interactions between phenylboronic acid-carrying self-assembled monolayers and flavin adenine dinucleotide or horseradish peroxidase Chemistry: A European Journal 11 2005 4239 4246 (Pubitemid 40963847)
28. +-dependent enzyme-carbon nanotube electrodes for biosensors and biofuel cell applications Chemistry: A European Journal 13 2007 10168 10175
29. P. Lin, S. Chen, K. Wang, M. Chen, A.K. Adak, J.R. Hwu, Y. Chen, and C. Lin Fabrication of oriented antibody-conjugated magnetic nanoprobes and their immunoaffinity application Analytical Chemistry 81 2009 8774 8782
30. R. Villalonga, P. Díez, P. Yáñez-Sedeño, and J.M. Pingarrón Wiring horseradish peroxidase on gold nanoparticles-based nanostructured polymeric network for the construction of mediatorless hydrogen peroxide biosensor Electrochimica Acta 56 2011 4672 4677
31. L. Cui, M. Xu, J. Zhu, and S. Ai A novel hydrogen peroxide biosensor based on the specific binding of horseradish peroxidase with polymeric thiophene-3-boronic acid monolayer in hydrophilic room temperature ionic liquid Synthetic Metals 161 2011 1686 1690
32. nano/Au-plated Au electrode for biosensor and biofuel cell Biosensors and Bioelectronics 31 2012 357 362
33. J. Zhang, S. Song, L. Wang, D. Pan, and C. Fan A gold nanoparticle-based chronocoulometric DNA sensor for amplified detection of DNA Nature Protocols 2 2007 2888 2895
34. J. Huang, Q. Xie, Y. Tan, Y. Fu, Z. Su, Y. Huang, and S. Yao Preparation of Pt/multiwalled carbon nanotubes modified Au electrodes via Pt-Cu co-electrodeposition/Cu stripping protocol for high-performance electrocatalytic oxidation of methanol Materials Chemistry and Physics 118 2009 371 378
35. R. Polsky, R. Gill, L. Kaganovsky, and I. Willner Nucleic acid-functionalized Pt nanoparticles: catalytic labels for the amplified electrochemical detection of biomolecules Analytical Chemistry 78 2006 2268 2271
36. Y. Fu, C. Chen, Q. Xie, X. Xu, C. Zou, Q. Zhou, L. Tan, H. Tang, Y. Zhang, and S. Yao Immobilization of enzymes through one-pot chemical preoxidation and electropolymerization of dithiols in enzyme-containing aqueous suspensions to develop biosensors with improved performance Analytical Chemistry 80 2008 5829 5838
37. Y. Su, Q. Xie, C. Chen, Q. Zhang, M. Ma, and S. Yao Electrochemical quartz crystal microbalance studies on enzymatic specific activity and direct electrochemistry of immobilized glucose oxidase in the presence of sodium dodecyl benzene sulfonate and multiwalled carbon nanotubes Biotechnology progress 24 2008 262 272 (Pubitemid 351231275)
38. H. Bergmeyer Methods of Enzymatic Analysis 1963 Academic Press New York
39. A. Kloke, F. von Stetten, R. Zengerle, and S. Kerzenmacher Strategies for the fabrication of porous platinum electrodes Advanced Materials 23 2011 4976 5008
40. S. Trasatti, and O. Petrii Real surface area measurements in electrochemistry Pure and Applied Chemistry 63 1991 711 734
41. X. Wang, F. Yin, and Y. Tu A uric acid biosensor based on Langmuir-Blodgett film as an enzyme-immobilizing matrix Analytical Letters 43 2010 1507 1515
42. T. Ahuja, Rajesh, D. Kumar, V.K. Tanwar, V. Sharma, N. Singh, and A.M. Biradar An amperometric uric acid biosensor based on Bis[sulfosuccinimidyl] suberate crosslinker/3-aminopropyltriethoxysilane surface modified ITO glass electrode Thin Solid Films 519 2010 1128 1134
43. Y. Lei, X. Liu, X. Yan, Y. Song, Z. Kang, N. Luo, and Y. Zhang Multicenter uric acid biosensor based on tetrapod-shaped ZnO nanostructures Journal of Nanoscience and Nanotechnology 12 2012 513 518
44. H. Tao, X. Wang, Y. Hu, Y. Ma, Y. Lu, and Z. Hu Construction of uric acid biosensor based on biomimetic titanate nanotubes Journal of Nanoscience and Nanotechnology 10 2010 860 864
45. T. Ahuja, V. Tanwar, S. Mishra, D. Kumar, A. Biradar, and Rajesh Immobilization of uricase enzyme on self-assembled gold nanoparticles for application in uric acid biosensor Journal of Nanoscience and Nanotechnology 11 2011 4692 4701
46. M. Bhambi, G. Sumana, B.D. Malhotra, and C.S. Pundir An amperomertic uric acid biosensor based on immobilization of uricase onto polyaniline-multiwalled carbon nanotube composite film Artificial Cells, Blood Substitutes and Biotechnology 38 2010 178 185
47. Y. Wang, L. Yu, Z. Zhu, J. Zhang, and J. Zhu Novel uric acid sensor based on enzyme electrode modified by ZnO nanoparticles and multiwall carbon nanotubes Analytical Letters 42 2009 775 789
48. Y.-C. Luo, J.-S. Do, and C.-C. Liu An amperometric uric acid biosensor based on modified Ir-C electrode Biosensors and Bioelectronics 22 2006 482 488 (Pubitemid 44485489)
49. Y. Zhang, G. Wen, Y. Zhou, S. Shuang, C. Dong, and M.M.F. Choi Development analytical application of an uric acid biosensor using an uricase-immobilized eggshell membrane Biosensors and Bioelectronics 22 2007 1791 1797 (Pubitemid 46185982)
50. F. Zhang, X. Wang, S. Ai, Z. Sun, Q. Wan, Z. Zhu, Y. Xian, L. Jin, and K. Yamamoto Immobilization of uricase on ZnO nanorods for a reagentless uric acid biosensor Analytica Chimica Acta 519 2004 155 160 (Pubitemid 38993661)
51. R. Rawal, S. Chawla, N. Chauhan, T. Dahiya, and C.S. Pundir Construction of amperometric uric acid biosensor based on uricase immobilized on PBNPs/cMWCNT/PANI/Au composite International Journal of Biological Macromolecules 50 2012 112 118
52. B.K. Jena, and C.R. Raj Enzyme integrated silicate-Pt nanoparticle architecture: a versatile biosensing platform Biosensors and Bioelectronics 26 2011 2960 2966