The plant disease such as Rice tungro disease (RTD) becomes a major problem in rice production and also will effect in the economy loss in the country. Therefore, to tackle this problem at early stages, the immunosensor application is a most reliable sensor nowadays because of advantages towards detecting biological molecule. Thus, in order to deal with immunosensor development, it can be done by undergoing the formation of immunosensor format on screen-printed carbon electrode (SPCE). Results can be elaborated with the potential applications to detect the viruses.
REFERENCES
1.
M. N. A.
Uda
, T.
Adam
, C. M.
Hasfalina
, S.
Faridah
, I.
Zamri
, U.
Hashim
, and S. A. B.
Ariffin
, “Reviewed Immunosensor Format Using Nanomaterial for Tungro Virus Detection
,” vol. 832
, pp. 410
–414
, 2014
.2.
M. N. A.
Uda
, C. M.
Hasfalina
, A. a.
Samsuzana
, S.
Faridah
, I.
Zamri
, B. S.
Noraini
, W. N.
Sabrina
, and U.
Hashim
, “Comparison Study of Two Different Isolation and Purification Method for Rice Tungro Bacilliform Virus (RTBV)
,” Agric. Agric. Sci. Procedia
, vol. 2
, pp. 107
–112
, 2014
.3.
M. B.
Lerner
, B. R.
Goldsmith
, R.
McMillon
, J.
Dailey
, S.
Pillai
, S. R.
Singh
, and A. T. C.
Johnson
, “A carbon nanotube immunosensor for Salmonella
,” AIP Adv.
, vol. 1
, no. 4
, 2011
.4.
M.
Mendonça
, N. L.
Conrad
, F. R.
Conceição
, A. N.
Moreira
, W. P.
da Silva
, J. A.
Aleixo
, and A. K.
Bhunia
, “Highly specific fiber optic immunosensor coupled with immunomagnetic separation for detection of low levels of Listeria monocytogenes and L. ivanovii
.,” BMC Microbiol.
, vol. 12
, p. 275
, 2012
.5.
B.
Journal
, A. M.
Salgado
, and B.
Valdman
, “The evolution and developments of immunosensor for health and environement monitoring: problems and perspectives
,” vol. 26
, no. 02
, pp. 227
–249
, 2009
.6.
O. a
Sadik
and J. M.
Van Emon
, “Applications of electrochemical immunosensors to environmental monitoring
.,” Biosens. Bioelectron.
, vol. 11
, no. 8
, pp. i
–xi
, Jan. 1996
.7.
Y.
Zhuo
, R.
Yuan
, Y.
Chai
, D.
Tang
, Y.
Zhang
, N.
Wang
, X.
Li
, and Q.
Zhu
, “A reagentless amperometric immunosensor based on gold nanoparticles/thionine/Nafion-membrane-modified gold electrode for determination of α-1-fetoprotein
,” Electrochem. commun.
, vol. 7
, no. 4
, pp. 355
–360
, 2005
.8.
Y.
Huang
, Q.
Wen
, J.-H.
Jiang
, G.-L.
Shen
, and R.-Q.
Yu
, “A novel electrochemical immunosensor based on hydrogen evolution inhibition by enzymatic copper deposition on platinum nanoparticle-modified electrode
.,” Biosens. Bioelectron.
, vol. 24
, no. 4
, pp. 600
–5
, Dec. 2008
.9.
M.
Pohanka
and P.
Skladal
, “A Review: Electrochemcial biosensors-principles and applications
,” J. Appl. Biomed.
, vol. 6
, pp. 57
–64
, 2008
.10.
S.
Viswanathan
and J.
Radecki
, “Nanomaterials in electrochemical biosensors for food analysis – a review
,” vol. 58
, no. 2
, pp. 157
–164
, 2008
.11.
G.
Volpe
, R.
Draosco
, G.
Palleschi
, and D.
Compagnone
, “3,3,5,5-Tetranerhylbenzidine as electrochemical substrate for herodish peroxidase based enzyme immunoassays. Acomparative study
,” Analyst
, pp. 1303
–1307
, 1998
.12.
C. O.
Parker
and I. E.
Tothill
, “Development of an electrochemical immunosensor for aflatoxin m1 in milk with focus on matrix interference
.,” Biosens. Bioelectron.
, vol. 24
, pp. 2452
–2457
, 2009
.13.
Z. P.
Chen
, Z. F.
Peng
, P.
Zhang
, X. F.
Jin
, J. H.
Jiang
, X. B.
Zhang
, G. L.
Shen
, and R. Q.
Yu
, “A sensitive immunosensor using colloidal gold as electrochemical label
,” Talanta
, vol. 72
, no. 5
, pp. 1800
–1804
, 2007
.14.
G.
Liu
and Y.
Lin
, “Nanomaterial labels in electrochemical immunosensors and immunoassays
,” Talanta
, vol. 74
, pp. 308
–317
, 2007
.
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