Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Effect of Meat Processing and Cooking on DNA Extraction and Detection of Meat Adulteration in Mutton Rista (Kashmiri Meat Product)


Affiliations
1 Division of Livestock Products Technology, Sher-e-Kashmir University of Agricultural Sciences and Technology, Kashmir (J&K), 190 006, India
2 Department of Livestock Products Technology, Arawali Veterinary College, (Affiliated with Rajasthan University of Veterinary and Animal Sciences, Bikaner), Sikar-332 001, Rajasthan, India
3 Department of Veterinary Microbiology, Arawali Veterinary College, (Affiliated with Rajasthan University of Veterinary and Animal Sciences, Bikaner), Sikar-332 001, Rajasthan, India
     

   Subscribe/Renew Journal


The processing and cooking of meat, during meat product preparation, affects the DNA quality and its concentration during DNA isolation. In this study, the effect of processing and cooking, during Rista preparation, on meat speciation of beef and buffalo meat in mutton Rista was studied. The study material involved three types of meat i.e. unprocessed meat, Rista emulsion and the final cooked Rista product. In each type of meat, pure meat samples of mutton, beef and buffalo meat were studied along with the adulterated mutton sample having 10% beef and 10% buffalo meat adulteration level. The meat samples were subjected to mtDNA isolation and multiplex PCR analysis. The results of this study showed that processing and cooking decreases the concentration of extracted DNAs but does not affect the detection of beef and buffalo meat in adulterated mutton Rista (unprocessed, processed and cooked) at 10% level of adulteration.

Keywords

Adulteration, DNA, PCR, Rista.
User
Notifications

  • Spink, J. and Moyer, D.C. Defining the public health threat of food fraud. J. Fd. Sci., 2011, 76, 157-163.
  • Calvo, J.H., Zaragoza, P. and Osta, R. A quick and more sensitive method to identify pork in processed and unprocessed food by PCR amplification of a new specific DNA fragment. J. Animal Sci., 2001, 79, 2108-2112.
  • Girish, P.S., Anjaneyulu, A.S.R., Viswas, K.N., Kumar, B.M., Anand, M., Patel, M. and Sharma, B.D. Meat species identification by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) of mitochondrial 12S rRNA gene. Meat Sci., 2005, 70, 107-112.
  • Mane, B.G., Mendiratta, S.K., Tiwari, A.K. and Bhilegaokar, K.N. Development and evaluation of polymerase chain reaction assay for identification of buffalo meat. Fd. Analytical Methods, 2012a, 5, 296-300.
  • Mane, B.G., Mendiratta, S.K. and Tiwari, A.K. Beef specific polymerase chain reaction assay for authentication of meat and meat products. Fd. Control, 2012b, 28, 246-249.
  • Meyer, R., Candrian, U. and Luthy, J. Detection of Pork in heated meat products by the polymerase chain reaction. J. AOAC Int., 1994, 77, 617-622.
  • Matsunaga, T., Chikuni, T., Tanabe, R., Muroya, S., Shibata, K., Yamada, J. and Shimmura, Y. A quick and simple method for the identification of meat species and meat products by PCR assay. Meat Sci., 1999, 51, 143-148.
  • Montiel-Sosa, J.F., Ruiz-Pesini, E., Montoya, J., Roncales, P., Lopez-Perez, M.J. and PerezMartos, M. Direct and highly species-specific detection of pork meat and fat in meat products by PCR amplification and mitochondrial DNA. J. Agri. Fd. Chem., 2000, 48, 28292832.
  • Partis, L., Croan, D., Guo, Z., Clark, R., Coldham, T. and Murby, J. Evaluation of a DNA fingerprinting method for determining the species origin of meats. Meat Sci., 2000, 54, 369-376.
  • Herman, B.L. Determination of the animal origin of raw food by species-specific PCR. J. Dairy Res., 2001, 68, 429-436.
  • Lahiff, S., Glennon, M., O’Brien, L., Lyng, J., Smith, T., Maher, M. and Shilton, N. Species-specific PCR for the identification of ovine, porcine and chicken species in meat and bone meal (MBM). Molecular and Cellular Probes, 2001, 15, 27-35.
  • Tartaglia, M., Saille, E., Pestalozza, S., Morelli, L., Antonucci, G. and Battalgia, P.A. 1998. Detection of bovine mitochondrial DNA in ruminant feeds: a molecular approach to test for the presence of bovine derived material. J. Fd. Protection, 1998, 61, 513-518.
  • Bellagamba, F., Moreti, V.M., Cominicini, S. and Valfre, F. Identification of species in animal feedstuffs by polymerase chain reaction-restriction fragment length polymorphism analysis of mitochondrial DNA. J. Agri. Fd. Chem., 2001, 49, 3775-3781.
  • Krcmar, P. and Rencova, E. Identification of bovine-specific DNA in feedstuffs. J. Fd. Protection, 2001, 64, 117-119.
  • Gouli, Z., Mingguang, Z., Zhijiang, Z. and Hongsheng, O.L. Establishment of a polymerase chain reaction for the identification of beef. Meat Sci., 1999, 48, 233-236.
  • Arslan, A., Ilhak, I.O. and Calicioglu, M. Effect of method of cooking on identification of heat processed beef using polymerase chain reaction (PCR) technique. Meat Sci., 2006, 72, 326-330.
  • Aslan, O., Hamill, R. M., Sweeney, T., Reardon, W. and Mullen, A. M. Integrity of nuclear genomic deoxyribonucleic acid in cooked meat: Implications for food traceability. J. Animal Sci., 2009, 87, 57-61.
  • Bourguiba-Hachemi, Sonia and Fathallah, M. Dahmani. DNA testing of meat foods raises issues beyond adulteration. Sky J. Fd. Sci., 2016, 5, 001 - 007.
  • Ali, M.E., Hashim, U., Mustafa, S., Che Man, Y.B., Dhahi, T.S., Kashif, M. and Abd Hamid, S.B. Analysis of pork adulteration in commercial meatballs targeting porcine-specific mitochondrial cytochrome b gene by TaqMan probe real-time polymerase chain reaction. Meat Sci., 2012, 91, 454-459.
  • Ballin, N.Z. Authentication of meat and meat products. Meat. Sci., 2010, 86, 577-587.
  • Samoon, A.H. Processing and preservation of Ghoshtaba and Rista (Kashmiri meat products). 1988, M.V.Sc. Thesis, Deemed University, I.V.R.I., Izatnagar, U. P.
  • Ausubel, F.M., Brent, R., Kingston, R.E., Moore, D.D., Seidman, J.G., Smith, J. and Strehl, K. Preparation of genomic DNA from mammalian tissue. pp. 2.2.1. In: Current protocols in molecular biology. Greene Publishing Associates/Wiley Interscience, New York, USA, 1987.
  • Zarringhabaie, G.E., Pirany, N. and Javanmard, A. Molecular traceability of the species origin of meats using Multiplex PCR. Afri. J. Biotechnol., 2011, 10, 15461-16465.
  • Tornberg, E. Effects of heat on meat proteins: Implications on structure and quality of meat products, Meat Sci., 2005, 70, 493–508.
  • Greenwood, A. and Paboo, S. Nuclear insertion sequences of mitochondrial DNA predominate in hair but not in blood of elephants. Molecular Ecol., 1999, 8, 133-137.
  • Murugaiah, Chandrika, Noor, Zainon Mohd, Mastakim, Maimunah, Maurice Bilung, Lesley, Selamat, Jinap and Radu, Son. Meat species identification and Halal authentication analysis using mitochondrial DNA. Meat Sci., 2009, 83, 57-61. doi:10.1016/j.meatsci.2009.03.015
  • Bellagamba, F., Moretti, V.M., Comincini, S. and Valfrè, F. Identification of species in animal feed- stuffs by polymerase chain reaction-restriction fragment length polymorphism analysis of mitochondrial DNA. J. Agri. Fd. Chem., 2001, 49, 3775–3781.
  • Rodriguez, M.A., Garcia, T., Gonzalez, I., Asensio, L., Hernandez, P.E. and Martin, R. PCR identification of beef, sheep, goat and pork in raw and heat treated meat mixtures. J. Fd. Protection, 2004, 67, 172-177.
  • Roudsari, G.S., Nassiri, M.R., MirHoseini, S.Z., Moussavi, A.H. and Javadmanesh, A. Fraud identification in industrial meat products by Multiplex PCR assay. Food Control, 2009, 20, 696-699.
  • Sahilah, A.M., Norhayati, Y., Norrakiah, A.S., Aminah, A. and Wan Aida, W.M. Halal authentication of raw meats using PCR amplification of mitochondrial DNA. Int. Fd. Res. J., 2011, 18, 1489-1491.
  • Sakalar, E. and Abasiyanik, M.F. Qualitative analysis of meat and meat products by multiplex polymerase chain reaction technique. Afr. J. Biotechnol., 2011, 10, 9379-9386.
  • Jain, S. Use of cyt b gene variability in detecting meat species by Multiplex PCR assay. 2004, M.V.Sc. Thesis, Anand Agricultural University, Anand.
  • Musto, M. DNA integrity of beef meat affected by cooking, Fd. Technol. Biotechnol., 2011, 49, 523-528.
  • Martinez, I. and Man, Y. Species identification in meat products by RAPD analysis. Fd. Res. Int., 1988, 31, 459-466.

Abstract Views: 341

PDF Views: 2




  • Effect of Meat Processing and Cooking on DNA Extraction and Detection of Meat Adulteration in Mutton Rista (Kashmiri Meat Product)

Abstract Views: 341  |  PDF Views: 2

Authors

Mohammad Mansoor Bhat
Division of Livestock Products Technology, Sher-e-Kashmir University of Agricultural Sciences and Technology, Kashmir (J&K), 190 006, India
Heena Jalal
Division of Livestock Products Technology, Sher-e-Kashmir University of Agricultural Sciences and Technology, Kashmir (J&K), 190 006, India
Parveez Ahmad Para
Department of Livestock Products Technology, Arawali Veterinary College, (Affiliated with Rajasthan University of Veterinary and Animal Sciences, Bikaner), Sikar-332 001, Rajasthan, India
Subha Ganguly
Department of Veterinary Microbiology, Arawali Veterinary College, (Affiliated with Rajasthan University of Veterinary and Animal Sciences, Bikaner), Sikar-332 001, Rajasthan, India

Abstract


The processing and cooking of meat, during meat product preparation, affects the DNA quality and its concentration during DNA isolation. In this study, the effect of processing and cooking, during Rista preparation, on meat speciation of beef and buffalo meat in mutton Rista was studied. The study material involved three types of meat i.e. unprocessed meat, Rista emulsion and the final cooked Rista product. In each type of meat, pure meat samples of mutton, beef and buffalo meat were studied along with the adulterated mutton sample having 10% beef and 10% buffalo meat adulteration level. The meat samples were subjected to mtDNA isolation and multiplex PCR analysis. The results of this study showed that processing and cooking decreases the concentration of extracted DNAs but does not affect the detection of beef and buffalo meat in adulterated mutton Rista (unprocessed, processed and cooked) at 10% level of adulteration.

Keywords


Adulteration, DNA, PCR, Rista.

References