A novel enzyme-immobilization method for a biofuel cell

Journal of Molecular Catalysis B: Enzymatic

Volumn 59, Issue 4, 2009, Pages 274-278

  Lee, Jin Young ^a   Shin, Hyun Yong ^a   Lee, Jong Ho ^a   Song, Yoon Seok ^a   Kang, Seong Woo ^a   Park, Chulhwan ^b   Kim, Jung Bae ^a   Kim, Seung Wook ^a  

^a Korea University   (South Korea)

^b Kwangwoon University   (South Korea)

Author keywords

Nicotinamide adenine dinucleotide; Enzyme stability; Immobilization; Lactate dehydrogenase; Pyrroloquinoline quinone

Indexed keywords

ACTIVE SITES; AMBIENT CONDITIONS; BIO-FUEL CELLS; COFACTOR; COVALENT BOND FORMATIONS; ELECTRICAL POWER; ELECTRICAL PROPERTIES; ELECTRON TRANSFER MEDIATORS; ENVIRONMENTALLY-FRIENDLY; ENZYME ACTIVATIONS; ENZYME STABILITY; GOLD ELECTRODES; IMMOBILIZATION; IMMOBILIZATION METHODS; LACTATE DEHYDROGENASE; LOW LEVELS; METAL CATALYSTS; POWER PRODUCTIONS; PYRROLOQUINOLINE QUINONE; ROOM TEMPERATURES;

AMIDES; BIOFUELS; BIOLOGICAL FUEL CELLS; CALCIUM CHLORIDE; CATALYSTS; CELL MEMBRANES; ELECTRIC PROPERTIES; ELECTROCHEMICAL ELECTRODES; ENZYME IMMOBILIZATION; ENZYMES; SYSTEM STABILITY;

CELL IMMOBILIZATION;

BIOFUEL; CALCIUM CHLORIDE; GOLD; LACTATE DEHYDROGENASE; LACTIC ACID; NICOTINAMIDE ADENINE DINUCLEOTIDE; PYRROLOQUINOLINEQUINONE;

ARTICLE; COVALENT BOND; CYCLIC POTENTIOMETRY; ELECTRON TRANSPORT; ENZYME ACTIVATION; ENZYME ELECTRODE; ENZYME IMMOBILIZATION; ENZYME STABILITY;

EID: 67349085483     PISSN: 13811177     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.molcatb.2008.10.008     Document Type: Article

References (37)

1. Willner I., Katz E., and Buckmann A.F. J. Am. Chem. Soc 123 (2001) 10752-10753
2. Noriko Y., Masamitsu T., Junko O., Satoshi I., Kazunori I., and Koji S. Biosens. Bioelectron. 20 (2005) 2145-2150
3. Bullen R.A., Arnot T.C., Lakeman J.B., and Walsh F.C. Biosens. Bioelectron. 21 (2006) 2015-2045
4. Chen T., Barton S.C., Binyamin G., Gao Z., Zhang Y., Kim H.H., and Heller A. J. Am. Chem. Soc. 123 (2001) 8630-8631
5. Ikeda T., and Kano K. Rev. J. Biosci. Bioeng. 92 (2001) 9-18
6. Park D.H., Park Y.K., and So C.E. J. Microbiol. Biotechnol. 14 (2004) 1120-1128
7. Moon H.S., Chang I.S., Jang J.K., Kim K.S., Lee J.Y., Lovitt R.W., and Kim B.H. J. Microbiol. Biotechnol. 15 (2005) 192-196
8. Pham T.H., Jang J.K., Moon H.S., Chang I.S., and Kim B.H. J. Microbiol. Biotechnol. 15 (2005) 438-441
9. Ramanavicius A., Kurtinaitiene B., Razumiene J., Laurinavicius V., Meskys R., Rudomanskis R., Bachmatova I., and Marcinkeviciene L. Biologija 1 (1998) 15-17
10. Habermuller K., Ramanavicius A., Laurinavicius V., and Schuhmann W. Electroanal 12 (2000) 1383-1389
11. Katz E., Ltzbeyer T., Schlereth D.D., Schuhmann W., and Schmidt H.L. J. Electroanal. Chem. 373 (1994) 189-200
12. Shukla A.K., Suresh P., Berchmans S., and Rajendran A. Curr. Sci. 87 (2004) 455-468
13. Ikeda T., and Kano K. Biochim. Biophys. Acta 1647 (2003) 121-126
14. Laurinavicius V., Kurtinaitiene B., Liauksminas V., Ramanavicius A., Meskys R., Rudomanskis R., Skotheim T., and Boguslavsky L. Anal. Lett. 32 (1999) 299-316
15. Ramanavicius A., Meskys R., and Laurinavicius V. Biologija 1 (1995) 53-56
16. Lapenaite I., Kurtinaitiene B., Marcinkeviciene L., Bachmatova I., Laurinavicius V., and Ramanavicius A. Chem. Pap. 55 (2001) 345-349
17. Malinauskas A., Kuzmarskyte J., Meskys R., and Ramanavicius A. Sens. Actuat. B 100 (2004) 387-394
18. Soares C.M.F., Santana M.H.A., Zanin G.M., and Castro H.F.D. Biotechnol. Prog. 19 (2003) 803-807
19. Wehtje E., Adlercreutz P., and Mattiasson B. Biotechnol. Bioeng. 41 (1993) 171-178
20. Rocha J.M.S., Gil M.H., and Garcia F.A.P. J. Biotechnol. 66 (1998) 61-67
21. Park S.W., Kim Y.I., Chung K.H., and Kim S.W. Proc. Biochem. 37 (2001) 153-163
22. Park S.W., Lee J., Hong S.I., and Kim S.W. Appl. Biochem. Biotech. 104 (2003) 185-198
23. Fukuda T., Maeda Y., and Kitano H. Langmuir 15 (1999) 1887-1890
24. Michael G.L., Jenny M.H., and Anthony A.P.T. Electroanal 8 (1996) 870-875
25. Pogorelova S.P., Zayats M., Kharitonov A.B., Katz E., and Willner I. Sens. Actuat. B 89 (2004) 40-47
26. Moon D.J., Park J.M., Kang J.S., Yoo K.S., and Hong S.I. J. Ind. Eng. Chem. 12 (2006) 149-155
27. Willner I., Katz E., Patolsky F., and Buckmann A.F. J. Chem. Soc. Perkin Trans. 2 (1998) 1817-1822
28. Bardea A., Katz E., Buckmann A.F., and Willner I. J. Am. Chem. Soc. 119 (1997) 9114-9119
29. Katz E., Heleg-Shabtai V., Bardea A., Willner I., Rau H.K., and Haehnel W. Biosens. Bioelectron. 13 (1998) 741-756
30. Kharitonov A.B., Alfonta L., Katz E., and Willner I. J. Electroanal. Chem. 487 (2000) 133-141
31. Lee D.H., Kim J.M., Shin H.Y., and Kim S.W. J. Microbiol. Biotechnol. 17 (2007) 650-654
32. Topcagic S., and Minteer S.D. Electochim. Acta 51 (2006) 2168-2172
33. Willner I., Arad G., and Katz E. Bioelectrochem. Bioeng. 44 (1998) 209-214
34. Zheng W., Li Q., Su L., Ya Y., Zhang J., and Mao L. Electroanal 18 (2006) 587-594
35. Elena F., and Lo G. Bioelectrochem 55 (2005) 83-87
36. Zayats M., Willner B., and Willner I. Electroanalysis 20 (2008) 583-601
37. Yan Y.M., Yeheskeli O., and Willner I. Chem. Eur. J. 13 (2007) 10168-10175