Advanced search
Publication Cover
Analytical Letters Volume 41, 2008 - Issue 14
Submit an article Journal homepage
153
Views
10
CrossRef citations to date
0
Altmetric
SENSORS

Use of Eggshell Membrane as an Immobilization Platform in Microbial Sensing

Fatma Yeni Ege University, Faculty of Science, Biochemistry Department, Bornova-Izmir/TURKIYE
,
Dilek Odaci Ege University, Faculty of Science, Biochemistry Department, Bornova-Izmir/TURKIYE
&
Suna Timur Ege University, Faculty of Science, Biochemistry Department, Bornova-Izmir/TURKIYECorrespondence[email protected]
Pages 2743-2758 | Received 20 May 2008, Accepted 01 Jul 2008, Published online: 06 Nov 2008

REFERENCES

  • Alacam , S. , Timur , S. , and Telefoncu , A. 2007 . A novel biosensor based on I-Homocysteine desulfhydrase Immobilized enzyme in eggshell membrane . J. Mol. Catal. B: Enzym. , 49 : 55 – 60 .
  • Baker , J.R. and Balch , D.A. 1962 . Organic material of hen's egg shell . Biochem. J. , 82 : 352 – 361 .
  • Bauman , W.H. , Lehmann , M. , Schwinde , A. , Ehret , R. , Brischwein , M. , and Wolf , B. 1999 . Microelectronic sensor system for microphysiological application on living cells . Sens. Actuators B. , 55 : 77 – 89 .
  • Bettaieb , F. , Ponsonnet , L. , Lejeune , P. , Ouada , H.B. , Martelet , C. , Bakhrouf , A. , Jaffrézic-Renault , N. , and Othmane , A. 2007 . Immobilization of E. coli bacteria in three-dimensional matrices for ISFET biosensor design . Bioelectrochemistry , 71 : 118 – 125 .
  • Burlage , R. and Kuo , C.T. 1994 . Living biosensors for the management and manipulation of microbial consortia . Annu. Rev. Microbiol. , 48 : 291 – 309 .
  • Choi , M.M.F. and Yiu , T.P. 2003 . Immobilization of beef liver catalase on eggshell membrane for fabrication of hydrogen peroxide biosensor . Enzyme. Microb. Technol. , 34 : 41 – 47 .
  • Choi , M.M.F. 2005 . Application of a long shelf-life biosensor for the analysis of l-lactate in dairy products and serum samples . Food Chem. , 92 : 575 – 581 .
  • Choi , M.M.F. , Liang , M.M.K. , and Lee , A.W.M. 2005 . A biosensing method with enzyme-immobilized eggshell membranes for determination of total glucosinolates in vegetables . Enzyme Microb. Technol. , 36 : 91 – 99 .
  • Choi , M.M.F. , Pang , W.S.H. , Xiao , D. , and Wu , X.J. 2001 . An optical glucose biosensor with eggshell membrane as an enzyme immobilization platform . Analyst , 126 : 1558 – 1563 .
  • Choi , M.M.F. and Pong Yiu , T. 2003 . Immobilization of beef liver catalase on eggshell membrane for fabrication of hydrogen peroxide biosensor . Enzyme Microb. Technol. , 34 : 41 – 47 .
  • Crombie , G. , Snider , R. , Faris , B. , and Franzbrau , C. 1981 . Lysine-derived cross-links in the egg shell membrane . Biochim. Biophys. Acta , 640 : 365 – 367 .
  • D'Souza , S.F. 1997 . Microbial biosensors . Biosens. Bioelectron. , 16 : 337 – 353 .
  • Held , M. , Schuhmann , W. , Jahreis , K. , and Schmidt , H.L. 2002 . Microbial biosensor array with transport mutants of Escherichia coli K12 for the simultaneous determination of mono- and disaccharides . Biosens. Bioelectron. , 17 : 1089 – 1094 .
  • Karube , I. and Suzuki , M. 1990 . Microbial Biosensors in Biosensors, a Practical Approach . A. E. G. Cass (ed.). Oxford University Press .
  • Kirgöz , Ü.A. , Odaci , D. , Timur , S. , Merkoçi , A. , Pazarlioğlu , N. , Telefoncu , A. , and Alegret , S. 2006. Graphite epoxy composite electrodes modified with bacterial cells. Bioelectrochemistry , 69: 128–131.
  • Kirgöz , U.A. , Timur , S. , Odaci , D. , Perez , B. , Alegret , S. , and Merkoçi , A. 2007 . Carbon nanotube composite as novel platform for microbial biosensor . Electroanalysis , 19 : 893 – 898 .
  • Krajewska , B. 2004 . Application of chitin- and chitosan-based materials for enzyme immobilizations: A review . Enzyme Microb. Technol. , 35 : 126 – 139 .
  • Lanyon , Y.H. , Tothill , I.E. , and Macsini , M. 2006 . An amperometric bacterial biosensor based on gold screen-printed electrodes for the detection of benzene . Anal. Lett. , 39 : 1669 – 1681 .
  • Lei , Y. , Chen , W. , and Mulchandani , A. 2006 . Microbial biosensors . Anal. Chim. Acta , 568 : 200 – 210 .
  • Li , B. , Lan , D. , and Zhang , Z. 2008 . Chemiluminescence flow-through biosensor for glucose with eggshell membrane as enzyme immobilization platform . Anal. Biochem. , 374 : 64 – 70 .
  • Maeda , K. and Sasaaki , Y. 1984 . An experience of hen-egg membrane as a biological dressing . Burns , 8 : 313 – 316 .
  • Martínez , M. , Hilding-Ohlsson , A. , Viale , A.A. , and Cortón , E. 2007 . Membrane entrapped Saccharomyces cerevisiae in a biosensor-like device as a generic rapid method to study cellular metabolism . J. Biochem. Bioph. Methods. , 70 : 455 – 464 .
  • Odaci , D. , Kayahan , S.K. , Timur , S. , and Toppare , L. 2008 . Use of a thiophene-based conducting polymer in microbial biosensing . Electrochim. Acta , 53 : 4104 – 4108 .
  • Odaci , D. , Timur , S. , and Telefoncu , A. ( 2008 ). Bacterial sensors based on chitosan matrices . Sens. Actuators. 134 : 89 – 94 .
  • Prashanth , K.V.H. and Tharanathan , R.N. 2007 . Chitin/chitosan: Modifications and their unlimited application potential: An overview . Trends Food Sci. Technol. , 18 : 117 – 131 .
  • Starcher , B.C. and King , S.G. 1980 . The presence of desmosine and isodesmosine in eggshell membrane protein . Connect. Tissue. Res. , 8 : 53 – 55 .
  • Takahashi , K. , Shirai , K. , Kitamura , M. , and Hattori , M. 1996 . Soluble egg shell membrane protein as a regulating material for collagen matrix reconstruction . Biosci. Biotechnol. Biochem. , 60 : 1299 – 1302 .
  • Tavassoli , M. 1983 . Effect of the substrate on the growth of CFU-c in continuous marrow culture . Experientia , 39 : 411 – 412 .
  • Tembe , S. , Kubal , B.S. , Karve , M. , and D'Souza , S.F. 2008 . Glutaraldehyde-activated eggshell membrane for immobilization of tyrosinase from Amorphophallus companulatus: Application in construction of electrochemical biosensor for dopamine . Anal. Chim. Acta , 612 : 212 – 217 .
  • Timur , S. , Anik , U. , Odaci , D. , and Gorton , L. 2007 . Development of a microbial biosensor based on carbon nanotube (CNT) modified electrodes . Electrochem. Commun. , 9 : 1810 – 1815 .
  • Timur , S. , Haghighi , B. , Tkac , J. , Pazarlioğlu , N. , Telefoncu , A. , and Gorton , L. 2006. Electrical wiring of Pseudomonas putida and Pseudomonas fluorescens with osmium redox polymers. Bioelectrochemistry , 71: 215–222.
  • Timur , S. , Haghighi , B. , Tkac , J. , Pazarlioğlu , N. , Telefoncu , A. , and Gorton , L. 2007 . Electrical wiring of Pseudomonas putida and Pseudomonas fluorescens with osmium redox polymers . Bioelectrochemistry , 71 : 38 – 45 .
  • Timur , S. , Pazarlioğlu , N. , Pilloton , R. , and Telefoncu , A. 2003a . Detection of phenolic compounds by thick film sensors based on Pseudomonas putida . Talanta , 61 : 87 – 93 .
  • Timur , S. , Pazarlioğlu , N. , Pilloton , R. , and Telefoncu , A. 2003b . Screen-printed electrodes for biosensor application: Reproducibility, sensitivity and stability . Talanta , 61 : 87 – 93 .
  • Timur , S. , Seta , L.D. , Pazarlioğlu , N. , Pilloton , R. , and Telefoncu , A. 2004 . Screen-printed graphite biosensors based on bacterial cells . Process Biochem. , 39 : 1325 – 1329 .
  • Trogl , J. , Ripp , S. , Kuncova , G. , Sayler , G.S. , Churava , A. , P. Parik , Demnerova , K. , Halova , J. , and Kubicova , L. 2005 . Selectivity of whole cell optical biosensor with immobilized bioreporter Pseudomonas fluorescens HK44 . Sens. Actuators B. , 107 : 98 – 103 .
  • Tsai , W.T. , Yang , J.M. , Lai , C.W. , Cheng , Y.H. , Lin , C.C. , and Yeh , C.W. 2005 . Characterization and adsorption properties of eggshells and eggshell membrane . Bioresource Technol. , 97 : 488 – 493 .
  • Turner , A.P.F. , Karube , I. , and Wilson , G.S. 1992 . Biosensors: Fundamentals and Applications . Moscow : Mir Publishers .
  • Turner , A.P. , Ramsay , G. , and Higgins , I.J. 1983 . Applications of electron transfer between biological systems and electrodes . Biochem. Soc. T , 11 : 445 – 448 .
  • Wen , G. , Zhang , Y. , Shuang , S. , Dong , C. , and Choi , M.M.F. 2007 . Application of a biosensor for monitoring of ethanol . Biosens. Bioelectron. , 23 : 121 – 129 .
  • Wu , B. , Zhang , G. , Shuang , S. , and Choi , M.M.F. 2004 . Biosensors for determination of glucose with glucose oxidase immobilized on an eggshell membrane . Talanta , 64 : 546 – 553 .
  • Wu , B. , Zhang , G. , Shuang , S. , Dong , C. , Choi , M.M.F. , and Lee , A.W.M. 2005 . A biosensor with myrosinase and glucose oxidase bienzyme system for determination of glucosinolates in seeds of commonly consumed vegetables . Sens. Actuators B , 106 : 700 – 707 .
  • Xiao , D. and Choi , M.M.F. 2002 . Aspartame optical biosensor with bienzyme-immobilized eggshell membrane and oxygen-sensitive optode membrane . Anal. Chem. , 74 : 863 – 870 .
  • Yang , X. , Zhou , Z. , Xiao , D. , and Choi , M.M.F. 2006 . A fluorescent glucose biosensor based on immobilized glucose oxidase on bamboo inner shell membrane . Biosens. Bioelectron. , 21 : 1613 – 1620 .
  • Yi , F. , Guo , Z.X. , Zhang , L.X. , Yu , J. , and Li , Q. 2004 . Soluble eggshell membrane protein: Preparation, characterization and biocompatibility . Biomaterials , 25 : 4591 – 4599 .
  • Zhang , G. , Liu , D. , Shuang , S. , and Choi , M.M.F. 2006 . A homocysteine biosensor with eggshell membrane as an enzyme immobilization platform . Sens. Actuators B , 114 : 936 – 942 .
  • Zhang , Y. 1998 . Natural silk fibroin as a support for enzyme immobilization . Biotechnol. Adv. , 16 : 961 – 971 .
  • Zhang , Y. , Wen , G. , Zhou , Y. , Shuang , S. , Donga , C. , and Choi , M.M.F. 2006. Development and analytical application of an uric acid biosensor using an uricase immobilized eggshell membrane. Biosens. Bioelectron. , 22: 1791–1797.
  • Zong , S. , Cao , Y. , Zhou , Y. , and Ju , H. 2007 . Reagentless biosensor for hydrogen peroxide based on immobilization of protein in zirconia nanoparticles enhanced grafted collagen matrix . Biosens. Bioelectron. , 22 : 1776 – 1782 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.