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Journal of Biotechnology in Livestock Production
Ghovvati, S., M.R. Nassiri, S.Z. Mirhoseini, A. Heravi Moussavi, and A. Javadmanesh. 2009. Fraud
identification in industrial meat products by multiplex PCR assay. Food Control 20: 696-699.
Gouli, Z., Z. Mingguang, Z. Zhijiang, O. Hongsheng, and L. Hongsheng. 1999. Establishment of a
polymerase chain reaction for the identification of beef. Meat Sci. 48: 233-236.
Hobbs, J., E. 2004. Traceability in the Canadian Red Meat Sector.Available source:
http://www.agr.gc.ca/spb/rad-dra/publications/perfreprt/trace_e.pdf, Aug 5,2016.
Kesmen Z., F. Sahin, and H. Yetim. 2007. PCR assay for the identification 0f animal species in
cooked sausages. Meat Sci, 77:649-653.
Kocher, T.D. and W.K. Thomas. 1989. Dynamics of mitochondrial DNA evolution in animals:
amplification and sequencing with conserved primers. Proc Natl Acad Sci. 86:6196-6200.
Li-Chin, T., H. Mei-Tzu, Hsiao. C.T, Lin. A.C.Y, Chen. S.J, Lee. J.C, and Hsieh H. 2007. Species
identification of animal specimens by cytochrome b gene. Forensic Sci. J. 6 (1): 63-65.
Matsuda, H., Y. Seo, E. Kakizaki, S. Kozawa, E. Muraoka, and N. Yukawa. 2005. Identification of
DNA of human origin based on amplification of human-specific mitochondrial cytochrome b
region. Forensic Sci. int. 1522-3: 109-114.
Schwagele, F. 2005. Traceability from a European Perspective. Meat Science, (71):164-173.
Smith, G. C., J. D. Tatum, K. E. Belk, J.A. Scanga, T. Grandin and J. N. Sofos. 2005. Traceability
froma US Perspective Meat Science, 71:174-193.
Teletchea, F., C. Maudet, and C. Hanni. 2005. Food and forensic molecular identification: update
and challenges. Trends in Biotech.Vol 23 No. 7: 14-25.
Tsai, L., M. Huang, C. Hsiao, A. C. Lin, S. Chen, J.C. Lee and H. Hsieh. 2007. Species identification
of animal specimens by cytochrome b gene. Forensic Science J. 6(1): 63-6
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