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74. Lee JC, Lee LL. Preferential solvent interactions between proteins and polyethylene
glycols. Journal of Biological Chemistry 1981; 256 :625-31 .
75. Hata A, Katayama H, Kitajima M, Visvanathan C, Nol C, Furumai H.Validation of inter-
nal controls for extraction and amplification of nucleic acids from enteric viruses in
water samples. Applied and Environmental Microbiology 2011; 77 :4336-43 .
76. Fout GS, Martinson BC, Moyer MW, Dahling DR. A multiplex reverse transcription-
PCR method for detection of human enteric viruses in groundwater. Applied and Envi-
ronmental Microbiology 2003; 69 :3158-64 .
77. Bronson DL, Elliott AY, Ritzi D. Concentration of Rous sarcoma virus from tissue
culture fluids with polyethylene glycol. Applied Microbiology 1975; 30 :464-71 .
78. Boom R, Sol CJ, Salimans MM, Jansen CL, Wertheim-van Dillen PM, van der Noordaa
J. Rapid and simple method for purification of nucleic acids. Journal of Clinical Microbiol-
ogy 1990; 28 :495-503 .
79. Wilson IG. Inhibition and facilitation of nucleic acid amplification. Applied and Environ-
mental Microbiology 1997; 63 :3741-51 .
80. Anceno JA, Katayama H, Houpt ER, Chavalitshewinkoon-Petmir P, Chuluun B, Shipi
OV. IMS-free DNA extraction for the PCR-based quantification of Cryptosporidium
parvum and Giardia lamblia in surface and waster water. International Journal of Environmen-
tal Health Research 2007; 17 :297-310 .
81. Francy DS, Bushon RN, Brady AMG, et al. Comparison of traditional and molecular
analytical methods for detecting biological agents in raw and drinking water following
ultrafiltration. Journal of Applied Microbiology 2009; 107 :1479-91 .
82. Dineen SM, Aranda IV, R , Anders DL, Robertson JM. An evaluation of commercial
DNA extraction kits for the isolation of bacterial spore DNA from soil. Journal of Applied
Microbiology 2010; 109 :1886-96 .
83. Gutierrez-Aguirre I, Banjac M, Steyer A, et al. Concentrating rotaviruses from water
samples using monolithic chromatographic supports. Journal of Chromatography A
2009; 1216 :2700-4 .
84. Dreier J, Stormer M, Kleesiek K. Use of bacteriophage MS2 as an internal control in
viral reverse transcription-PCR assays. Journal of Clinical Microbiology 2005; 43 :4551-7 .
85. Lees D. CEN/WG6/TAG4. International standardisation of a method for detection
of human pathogenic viruses in Molluscan shellfish. Food and Environmental Virology
2010; 2 :146-55 .
86. D'Agostino M, Cook N, Rodriguez-Lazaro D, Rutjes S. Nucleic acid amplification-
based methods for detection of enteric viruses: definition of controls and interpretation
of results. Food and Environmental Virology 2011; 2 :55-60 .
87. Lowther JA, Avant JM, Gizynski K, Rangdale RE, Lees DN. Comparison between
quantitative real-time reverse transcription PCR results for norovirus in oysters and
self-reported gastroenteric illness in restaurant customers. Journal of Food Protection
2010; 73 :305-11 .
88. Costafreda MI, Bosch A, Pinto RM. Development, evaluation, and standardization of
a real-time TaqMan reverse transcription-PCR assay for quantification of hepatitis A
virus in clinical and shellfish samples. Applied and Environmental Microbiology 2006; 72 :
3846-55 .
89. Greening GE, Hewitt J. Norovirus detection in shellfish using a rapid, sensitive virus recovery
and real-time RT-PCR detection protocol. Food Analytical Methods 2008; 1 :109-18 .
90. Roussel Y, Wilks M, Harris A, Mein C, Tabaqchali S. Evaluation of DNA extraction
methods from mouse stomachs for the quantification of H. pylori by real-time PCR.
Journal of Microbiological Methods 2005; 62 :71-81 .
91. Alaeddini R. Forensic implications of PCR inhibition: a review. Forensic Science Interna-
tional Genetics 2012; 6 :297-305 .
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