Biomedical Engineering Reference
In-Depth Information
34. M. Snejdakova, L. Svobodova, D.P. Nikolelis, J. Wang, and D. Hianik, Acetylcholine biosensor based
on dendrimer layers for pesticides detection.
Electroanalysis
15
, 1185-1191 (2003).
35. S. Andreescu, L. Barthelmebs, and J.L. Marty, Immobilization of acetylcholinesterase on screen-printed
electrodes: comparative study between three immobilization methods and applications to the detection
of organophosphorus insecticides.
Anal. Chim. Acta
464
, 171-180 (2002).
36. M.N. Hendji, N. Jaffrezic-Renault, C. Martelet, P. Clechet, A.A. Shulga, V.I. Strikha, L.I. Netchipruk,
A.P. Soldatkin, and W.B. Wlodarski, Sensitive detection of pesticides using a differential ISFET-based
system with immobilized cholinesterases.
Anal. Chim. Acta
281
, 3-11 (1993).
37. R.E. Gyurcsanyi, Z. Vagfoldi, K. Toth, and G. Nagy, Fast response potentiometric acetylcholine biosen-
sor.
Electroanalysis
11
, 712-718 (1999).
38. A. Cagnini, I. Palchetti, I. Lioni, M. Mascini and A.P.F. Turner, Disposable ruthenized screen-printed
biosensors for pesticides monitoring.
Sens. Actuat. B
24
, 85-89 (1995).
39. B. Bucur, A.F. Danet, and J.L. Marty, Versatile method of cholinesterase immobilisation via affi n-
ity bonds using concanavalin A applied to the construction of a screen-printed biosensor.
Biosens.
Bioelectron
.
20
, 217-225 (2004).
40. Y. Lin, F. Lu, and J. Wang, Disposable carbon nanotube modifi ed screen-printed biosensor for ampero-
metric detection of organophosphorus pesticides and nerve agents.
Electroanalysis
16
, 145-149 (2004).
41. M. Musameh, N.S. Lawrence, and J. Wang, Electrochemical activation of carbon nanotubes.
Electrochem. Commun
.
7,
14-18 (2005).
42. M. Lotti, Cholinesterase inhibition: complexities in interpretation.
Chin. Chem
.
41
, 1814-1818 (1995).
43. F.N. Kok and V. Hasirci, Determination of binary pesticide mixtures by an acetylcholinesterase-choline
oxidase biosensor.
Biosens. Bioelectron
.
19
, 661-665 (2004).
44. G. Jeanty and J.L. Marty, Detection of paraoxon by continuous fl ow system based enzyme sensor.
Biosens. Bioelectron
.
13
, 213-218 (1998).
45. C. la Rosa, F. Pariente, L. Hernandez, and E. Lorenzo, Determination of organophosphorus and car-
bamic pesticides with an acetylcholinesterase amperometric biosensor using 4-aminophenyl acetate as
substrate.
Anal. Chim. Acta
295
, 273-282 (1993).
46. A. Seki, F. Ortega, and J.L. Marty, Enzyme sensor for the detection of herbicides inhibiting acetolactate
synthase.
Anal. Lett
.
29
, 1259-1271 (1996).
47. J. Besombes, S. Cosnier, P. Labbe, and G. Reverdy, A biosensor as warning device for the detection of
cyanide, chlorophenols, atrazine and carbamate pesticides.
Anal. Chim. Acta
311
, 255-263 (1995).
48. T. Noguer, A. Gradinaru, A. Cincu, and J.L. Marty, A new disposable biosensor for the accurate and
sensitive detection of ethylenebis(dithiocarbamate) fungicides.
Anal. Lett
.
32
, 1723-1738 (1999).
49. T. Noguer, B. Leca, G. Jeanty, and J.L. Marty, Biosensors based on enzyme inhibition: detection of
organophosphorus and carbamate insecticides and dithiocarbamate fungicides.
Field Anal. Chem. Tech
.
3
, 171-178 (1999).
50. E.V. Gogol, G.A. Evtugyn, J.L. Marty, H.C. Budnikov, and V.G. Winter, Amperometric biosensors based
on Nafi on coated screen-printed electrodes for the determination of cholinesterase inhibitors.
Talanta
53
, 379-389 (2000).
51. M.A. Sirvent, A. Merkoci, and S. Alegret, Pesticide determination in tap water and juice samples using
disposable amperometric biosensors made using thick-fi lm technology.
Anal. Chim. Acta
442
, 35-44
(2001).
52. J. Wang, V.B. Nascimento, S.A. Kane, K. Rogers, M.R. Smyth, and L. Angnes, Screen-printed tyrosi-
nase-containing electrodes for the biosensing of enzyme inhibitors.
Talanta
43
, 1903-1907 (1996).
53. J.S. Karns, M.T. Muldoon, W.W. Mulbury, M. Derbyshire, and P.C. Kearn, Use of microorganisms and
microbial systems in the degradation of pesticide.
ACS Symp. Ser
.
334
, 157-170 (1987).
54. E.I. Rainina, E.N. Efremenco, S.D. Varfolomeyev, A.L. Simonian, and J.R. Wild, The development of a
new biosensor based on recombinant
E. coli
for the direct detection of organophosphorus neurotoxins.
Biosens. Bioeletron
.
11
, 991-1000 (1996).
55. A. Mulchandani, P. Mulchnadani, W. Chen, J. Wang, and L. Chen, Amperometric thick-fi lm strip elec-
trodes for monitoring organophosphate nerve agents based on immobilized organophosphorus hydro-
lase.
Anal. Chem
.
71
, 2246-2249 (1999).
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