Biology Reference
In-Depth Information
23.
Ravindranath SP, Mauer LJ, Deb-Roy C, Irudayaraj J. Biofunctionalised magnetic
nanoparticle integrated mid-infrared pathogen sensor for food matrixes.
Analytical
Chemistry
2009;
81
:2840-6
.
24.
Cheng Y, Li Y, Huang J, et al. Combining biofunctional magnetic nanoparticles and ATP
bioluminescence for rapid detection of Escherichia coli.
Talanta
2009;
77
:1332-6
.
25.
Agrawal S, Morarka A, Bodas D, Paknikar KM. Multiplexed Detection of Waterborne
Pathogens in Circular Microfluidics.
Applied Biochemical Biotechnological
2012
.
26.
Hauck TS, Giri S, Gao Y, Chan WCW. Nanotechnology diagnostics for infectious dis-
eases prevalent in developing countries.
Advanced Drug Delivery Reviews
2010;
62
:438-48
.
27.
Philipps RL, Miranda OR, You CC, Rotello VM, Bunz UH. Rapid and efficient iden-
tification of bacteria using gold-nanoparticle-poly (para-phenylethynylene) constrcuts.
Angew Chem Int Ed
2008;
47
:2590-4
.
28.
Jung JH, Cheon DS, Liu F, Lee KB, Seo TS. A Graphene Oxide Based Immuno-biosen-
sor for Pathogen Detection.
Angewante Chemica International Edition
2010;
49
:5708-11
.
29.
Driskell JD, Tripp RA. Emerging Technologies in Nanotechnology-Based Pathogen
Detection.
Clinical Microbiology Newsletter
2009;
31
(18):137-44
.
30.
Yang L, Li Y. Simultaneous detection of E. coli O157:H7 and S. Typhimurium using
quantum dots as fluorescence labels.
Analyst
2006;
131
:394-401
.
31.
Hahn MA, Tabb JS, Krauss TD. Detection of Single Bacterial Pathogens with Semicon-
ductor Quantum Dots.
Analytical Chemistry
2005;
77
(15):4861-9
.
32.
Edgar R, McKinstry M, Hwang J, et al. High-sensitivity bacterial detection using biotin-tagged
phage and quantum-dot nanocomplexes.
Proc Natl Acad Sci U S A
2006;
103
(13):4841-5
.
33.
Klostranec JM, Xiang Q, Farcas GA, et al. Convergence of quantum dot barcodes with
microfluidics and signal processing for multiplexed high-throughput infectious disease
diagnostics.
Nano Letters
2007;
7
(9):2812-8
.
34.
Su XI, Li Y. Quantum dot biolabelling coupled with immunomagnetic separation for
detection of Escherichia coli O157:H7.
Analytical Chemistry
2004;
76
:4806-10
.
35.
Zhao Y, Ye M , Chao Q, Jia N, Ge Y, Shen H. Simultaneous detection of multifoodborne
pathogenic bacteria based on functionalised quantum dots coupled with immunomag-
netic separation in food samples.
Journal of Agricultural and Food Chemistry
2009;
57
:517-24
.
36.
Liu Y, Brandon R, Cate M, Peng X, Stony R, Johnson M. Detection of pathogens using
luminescent CdSe/ZnS dendron nanocrystals and a porous membrane immunofilter.
Analytical Chemistry
2007;
79
:8796-802
.
37.
Dwarakanath S, Bruno JG, Shastry A, et al. Quantum dot-antibody conjugates shift
fluorescence upon binding bacteria.
Biochemical and Biophysical Research Communications
2004;
325
:739-43
.
38.
Mukhopadhyay B, Martins MB, Karamanska R, Russell DA, Field RA. Bacterial detec-
tion using carbohydrate-functionalised CdS quantum dots: a model study exploiting E.
coli recognition of mannosides.
Tetrahedron Letters
2009;
50
:886-9
.
39.
Zhu L, Ang S, Liu WT. Quantum dots as a novel immunofluorescent detection system for
Cryptosporidium parvum and Giardia lamblia.
Appl Environ Microbiol
2004;
70
(1):597-8
.
40.
Hahn MA, Keng PC, Krauss TD. ArticleFlow Cytometric Analysis To Detect Pathogens
in Bacterial Cell Mixtures Using Semiconductor Quantum Dots.
Analytical Chemistry
2008;
80
(3):864-72
.
41.
Ferrari BC, Bergquist PL. Quantum dots as alternatives to organic fluorophores for
Cryptosporidium detection using conventional flow cytometry and specific monoclonal
antibodies: Lessons learned.
Cytometry A
2007;
71A
(4):265-71
.
42.
Ibanez-Peral R, Bergquist PL, Walter MR, Gibbs M, Goldys EM, Ferrari B. Potential Use of
Quantum Dots in Flow Cytometry.
International Journal of Molecular Sciences
2008;
9
:2622-38
.
43.
Valanne A, Huopalahti S, Soukka T, Vainionpaa R, Lovgren T, Harma H. A sensitive
adenovirus immunoassay as a model for using nanoparticle label technology in virus
diagnostics.
Journal of Clinical Virology
2005;
33
:217-23
.
Previous Page
Next Page
Waterborne Pathogens: Detection Methods and Applications
Search WWH ::
Custom Search
Home