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J. Cras, Chris Rowe-Taitt, Delana Nivens, F. Ligler (1999)
Comparison of chemical cleaning methods of glass in preparation for silanizationBiosensors and Bioelectronics, 14
D. Moor, P. Brodmann, G. Nicholas, A. Eugster (2002)
Polymerase chain reaction (PCR) for the detection of king bolete (Boletus edulis) and slippery jack (Suillus luteus) in food samplesEuropean Food Research and Technology, 214
E. Lipkin, A. Shalom, H. Khatib, M. Soller, A. Friedmann (1993)
Milk as a source of deoxyribonucleic acid and as a substrate for the polymerase chain reaction.Journal of dairy science, 76 7
K. Chikuni, Toshiyuki Tabata, M. Kosugiyama, M. Monma, M. Saito (1994)
Polymerase chain reaction assay for detection of sheep and goat meatsMeat Science, 37
R. Branciari, I. Nijman, M. Plas, E. Antonio, J. Lenstra (2000)
Species origin of milk in Italian mozzarella and Greek feta cheese.Journal of food protection, 63 3
W. Wilson, C. Strout, T. DeSantis, J. Stilwell, A. Carrano, G. Andersen (2002)
Sequence-specific identification of 18 pathogenic microorganisms using microarray technology.Molecular and cellular probes, 16 2
Jae-Chang Cho, J. Tiedje (2002)
Quantitative Detection of Microbial Genes by Using DNA MicroarraysApplied and Environmental Microbiology, 68
A. Loy, A. Lehner, Natuschka Lee, Justyna Adamczyk, H. Meier, J. Ernst, K. Schleifer, M. Wagner (2002)
Oligonucleotide Microarray for 16S rRNA Gene-Based Detection of All Recognized Lineages of Sulfate-Reducing Prokaryotes in the EnvironmentApplied and Environmental Microbiology, 68
Christian Wolf, Jürg Rentsch, Philipp Hübner (1999)
PCR-RFLP analysis of mitochondrial DNA: a reliable method for species identification.Journal of agricultural and food chemistry, 47 4
D. Cutler, M. Zwick, M. Carrasquillo, C. Yohn, Katherine Tobin, C. Kashuk, D. Mathews, Nila Shah, E. Eichler, J. Warrington, A. Chakravarti (2001)
High-throughput variation detection and genotyping using microarrays.Genome research, 11 11
L. Bodrossy, N. Stralis-Pavese, J. Murrell, S. Radajewski, A. Weilharter, A. Sessitsch (2003)
Development and validation of a diagnostic microbial microarray for methanotrophs.Environmental microbiology, 5 7
S. Rea, K. Chikuni, R. Branciari, R. Sangamayya, D. Ranucci, P. Avellini (2001)
Use of duplex polymerase chain reaction (duplex-PCR) technique to identify bovine and water buffalo milk used in making mozzarella cheeseJournal of Dairy Research, 68
M. Chapela, C. Sotelo, R. Pérez-Martín (2003)
Molecular identification of cephalopod species by FINS and PCR-RFLP of a cytochrome b gene fragmentEuropean Food Research and Technology, 217
G. Hold, V. Russell, S. Pryde, H. Rehbein, J. Quinteiro, M. Rey-Méndez, C. Sotelo, R. Pérez-Martín, A. Santos, C. Rosa (2001)
Validation of a PCR-RFLP based method for the identification of salmon species in food productsEuropean Food Research and Technology, 212
D. Irwin, T. Kocher, A. Wilson (1991)
Evolution of the cytochromeb gene of mammalsJournal of Molecular Evolution, 32
S. Lahiff, M. Glennon, L. O’Brien, J. Lyng, T. Smith, M. Maher, N. Shilton (2001)
Species-specific PCR for the identification of ovine, porcine and chicken species in meta and bone meal (MBM).Molecular and cellular probes, 15 1
Sridhar Ramaswamy, P. Tamayo, R. Rifkin, Sayan Mukherjee, Chen-Hsiang Yeang, Michael Angelo, C. Ladd, Michael Reich, É. Latulippe, J. Mesirov, T. Poggio, W. Gerald, M. Loda, E. Lander, T. Golub (2001)
Multiclass cancer diagnosis using tumor gene expression signaturesProceedings of the National Academy of Sciences of the United States of America, 98
M. Huber, A. Mündlein, E. Dornstauder, C. Schneeberger, C. Tempfer, M. Mueller, W. Schmidt (2002)
Accessing single nucleotide polymorphisms in genomic DNA by direct multiplex polymerase chain reaction amplification on oligonucleotide microarrays.Analytical biochemistry, 303 1
M. Burgener, P. Hübner (1998)
Mitochondrial DNA enrichment for species identification and evolutionary analysisZeitschrift für Lebensmitteluntersuchung und -Forschung A, 207
Montiel-Sosa Jf, E. Ruiz‐Pesini, J. Montoya, P. Roncalés, M. López-Pérez, A. Pérez-Martos (2000)
Direct and highly species-specific detection of pork meat and fat in meat products by PCR amplification of mitochondrial DNA.Journal of agricultural and food chemistry, 48 7
L. Rossen, Pernille Nørskov, K. Holmstrøm, O. Rasmussen (1992)
Inhibition of PCR by components of food samples, microbial diagnostic assays and DNA-extraction solutions.International journal of food microbiology, 17 1
N. King, L. Kurth (1982)
Analysis of Raw Beef Samples for Adulterant Meat Species by Enzyme-Staining of Isoelectric Focusing GelsJournal of Food Science, 47
H. Hird, J. Lloyd, R. Goodier, Joy Brown, Paul Reece (2003)
Detection of peanut using real-time polymerase chain reactionEuropean Food Research and Technology, 217
R. Meyer, C. Höfelein, J. Lüthy, U. Candrian (1995)
Polymerase chain reaction-restriction fragment length polymorphism analysis: a simple method for species identification in food.Journal of AOAC International, 78 6
J. Hacia, L. Brody, M. Chee, S. Fodor, F. Collins (1996)
Detection of heterozygous mutations in BRCA1 using high density oligonucleotide arrays and two–colour fluorescence analysisNature Genetics, 14
M. Beier, Jörg Hoheisel (1999)
Versatile derivatisation of solid support media for covalent bonding on DNA-microchips.Nucleic acids research, 27 9
C. Andrews, R. Berger, R. Mageau, B. Schwab, R. Johnston (1992)
Detection of Beef, Sheep, Deer, and Horse Meat in Cooked Meat Products by Enzyme-Linked Immunosorbent AssayJournal of AOAC International, 75
Oligonucleotide microarray hybridization analysis of polymerase chain reaction (PCR) products from the mitochondrial cytochrome b gene DNA was applied to identify different animal species in meat and cheese food samples. A pair of universal primers binding to conserved regions of the vertebrate mitochondrial cytochrome b gene was used to amplify a 377 bp fragment with internal regions of high inter-species variability. PCR products of cattle, pig, chicken, turkey, sheep and goat were unequivocally identified by hybridization with species-specific probe sequences immobilized on an oligonucleotide microarray. In meat samples, 0.1% admixtures of beef or chicken meat were still detectable. By using this new PCR-based DNA chip hybridization for the analysis of 24 commercial food samples from routine control, the simultaneous species composition of mixtures with up to four different species could be determined in a single experiment. The results agreed well with those from the reference methods performed at the local food control authority, which are a combination of enzyme-linked immunosorbent assay (ELISA), species-specific PCR and PCR–RFLP (restriction fragment length polymorphism). Thus, the DNA chip hybridization analysis of cytochrome b PCR products offers a new way for rapid and sensitive species differentiation in food.
European Food Research and Technology – Springer Journals
Published: Jul 7, 2004
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