We analyzed the sequence of vertebrate molecular marker genes, then we selected the mitochondrial DNA (mtDNA) 16S rRNA gene as marker gene. In order to detect four kinds of animal-derived ingredients, which including bovine, goat, pig and chicken. We utilized a pair of universal primers, designed four sets of species-specific microarray probes and two pairs of quality control probes. We optimized the PCR amplifications and hybridization conditions, therefore these four kinds of animal-derived ingredients could be rapid and accurate detected by this approach. The detection limits were all reaches 1 pg. We established the detection platform of these four kinds of animal-derived ingredients. This universal PCR-microarray assay provides a new method for the identification of animal-derived ingredients in the import-export field.
Animal Feed ; analysis ; Animals ; Cattle ; Chickens ; DNA, Mitochondrial ; genetics ; Food Contamination ; analysis ; Goats ; Meat ; analysis ; Microarray Analysis ; methods ; Mitochondria, Muscle ; enzymology ; genetics ; Polymerase Chain Reaction ; methods ; RNA, Ribosomal, 16S ; genetics ; Sensitivity and Specificity ; Swine

We designed the specific primers and TaqMan probes targeting cytochrome b genes of mitochondrial DNA from bovine, goat and sheep. We used different fluorescents to label the probes. After optimization of reaction conditions, we set up a multiplex fluorescent real-time PCR method to detect bovine, goat and sheep derived materials, simultaneously. We finished the detection tests of 17 kinds of animal DNA and 200 DNA samples from different sources with the developed method and the National Standard GB/T 20190Y-2006 routine PCR method. The coincidence rate of these two methods was 100%. Without electrophoresis or restriction digestion, the developed method could reduce the test time to one third as routine PCR and identify three kinds of animal derived materials including bovine, goat and sheep in one reaction. The developed method was approximately 10 times more sensitive than routine PCR, and was applicable to identifications of bovine, goat and sheep derived materials in feed stuff, meat, milk, pelt and grease, etc. The study showed that the developed real-time PCR method is a rapid, sensitive and efficacious detection assay for bovine, goat and sheep derived materials in animal products.
Animal Feed ; analysis ; Animals ; Cattle ; Cytochromes b ; genetics ; DNA Primers ; DNA, Mitochondrial ; analysis ; genetics ; Food Contamination ; analysis ; Genes, Mitochondrial ; Goats ; Meat ; analysis ; Mitochondria, Muscle ; enzymology ; genetics ; Polymerase Chain Reaction ; methods ; Sheep