Biology Reference
In-Depth Information
5 . Hötzer B, Medintz IL, Hildebrandt N. Fluorescence in Nanobiotechnology: Sophisti-
cated Fluorophores for Novel Applications. Small 2012; 8 :2297-326 .
6. Walker-Daniels J. www.labome.com/method/Live-Cell-Imaging-Methods-Review.html
7 . Liu WH, Zheng G. Photactivatable fluorophores and techniques for biological imaging
applications. Photochemical and Photobiological Sciences 2012; 11 :460-71 .
8 . Schreier S, Doungchawee G, Triampo D, Wangroongsarb P, Hartskeerl RA, Triampo W.
Development of a magnetic bead fluorescence microscopy immunoassay to detect and
quantify Leptospira in environmental water samples. Acta Tropica 2012; 122 :119-25 .
9 . Zhu P, Shelton DR, Karns JS, Sundaram A, Li S, Amstutz P, et al. Detection of water-
borne E. coli O157 using the integrating waveguide biosensor. Biosensors and Bioelectron-
ics 2005; 21 :678-83 .
10. Bharadwaj R, Sai VVR, Thakare K, Dhawangale A, Kundu T, Titus S, et al. Evanescent
wave absorbance based fiber optic biosensor for label-free detection of E. coli at 280 nm
wavelength. Biosensors and Bioelectronics 26 :3367-3370.
11. Tripathi SM, Bock WJ, Mikulic P, Chinnappan R, Ng A, Tolba M, et al. Long period
grating based biosensor for the detection of Escherichia coli bacteria. Biosensors and
Bioelectronics 35 :308-312.
12. Kramer MF, Vesey G, Look NL, Herbert BR, Simpson-Stroot JM, Lim DV. Develop-
ment of a Cryptosporidium oocyst assay using an automated fiber optic-based biosensor.
Journal of Biological Engineering 2007; 1 :1-1 .
13. Shen L, Hagen JA, Papautsky I. Point-of-care colorimetric detection with a smartphone.
Lab on a Chip 2012 .
14. Song JM, Kwon HT. Photodiode array on-cip biosensor for the detection of E. coli
O157:H7 pathogenic bacteria. Methods in Molecular Biology 2009; 503 :325-55 .
15. Habash M, Johns R. Filtration, adsorption and immunodetection of virus using poly-
electrolyte multilayer-modified paper. Journal of Microbiological Methods 2009; 79 :128-30 .
16. Ghosh KK, Burns LD, Cocker ED, Nimmerjahn A, Ziv Y, Gamal AE, et al. Com-
parison study of membrane filtration direct count and an automated coliform and
Escherichia coli detection system for on-site water quality testing. Nature Methods
2011; 8 :871-8 .
17. Larsson PA, Puttaswamaiah SG, Ly C, Vanerek A, Christopher Hall J, Drolet FO, F i l -
tration, adsorption and immunodetection of virus using polyelectrolyte multilayer-
modified paper. Colloids and Surfaces B: Biointerfaces 2013; 101 :205-9 .
18. Mudanyali O, Oztoprak C, Tseng D, Erlinger A, Ozcan A. Detection of waterborne par-
asites using field-portable and cost-effective lensfree microscopy. Lab on a Chip 2010; 10 :
2419-23 .
19. Zhu H, Sikora U, Ozcan A. Quantum dot enabled detection of Escherichia coli using a
cell-phone. Analyst 2012; 137 :2541-4 .
20. Veal DA, Deere D, Ferrari B, Piper J, Attfield PV. Fluorescence staining and flow cytom-
etry for monitoring microbial cells. Journal of Immunological Methods 2000; 243 :191-210 .
21. Dixon BR, Parenteau M, Martineau C, Fournier J. A comparison of conventional
microscopy, immunofluorescence microscopy and flow cytometry in the detec-
tion of Giardia lamblia cysts in beaver fecal samples. Journal of Immunological Methods
1997; 202 :27-33 .
22. Abad FX, Pinto RM, Bosch A. Flow cytometry for microbial sensing in environmental
sustainability applications: current status and future prospects. Applied and Environmental
Microbiology 1998; 64 :2392-6 .
23. Gruden C, Skerlos S, Adriaens P. Detection and surveillance of waterborne protozoan
parasites. FEMS Microbiology Ecology 2004; 49 :37-49 .
24. Bouzid M, Steverding D, Tyler KM. Flow cytometry detection of infectious rota-
viruses in environmental and clinical samples. Current Opinion in Biotechnology
2008; 19 :302-6 .
Previous Page
Next Page
Waterborne Pathogens: Detection Methods and Applications
Search WWH ::




Custom Search
Home