Radiation Usage Impact of on Anti-Nutritional Compounds (Antitrypsin and Phytic Acid) of Livestock and Poultry Foods
 WHO. 1994. Safety and nutritional adequacy of irradiated food. Report on Joint FAO/IAEA/WHO Expert Committee, Technical report series no. Geneva, Switzerland: World Health Organization.
 Sleman S.M. Beski,Robert A. Swick, Paul A. Iji. Specialized protein products in broiler chicken nutrition: A review Animal Nutrition. Volume 1, Issue 2, June 2015, Pages 47–53
 Liener, I.E. 1994. Anti-nutritional factors related to proteins and amino acides. In Y.H. Hui., J.R. Gorham., K.D. Murrel, and D.O. Cliver (Eds), food borne disease hand book (vol. 3) (pp. 261-309). New York. Marcl Dekker Inc.
 Siddhurajua, P., Makkarb, H. P. S., Beckera, K. 2002. The effect of ionising radiation on antinutritional factors and the nutritional value of plant materials with reference to human and animal food. Food Chemistry. 78:187–205.
 Saunders, R.M. 1990. The properties of rice bran as a foodstuff. Cereal Food World. 35:424-448.
 Mujahid, A., Ulhaq, I., Asif, M., and Gillani, A.H. 2004. Effect of different levels of rice bran processed by various techniques on performance of broiler chicks. British Poultry Science. 45:395-399.
 Siddhurajua, P., and Becker, k. 2001a. Effect of various indigenous processing methods on alpha-galactoside, mono and disaccharide content of an Indiontriblepules, Musunapruriens var. utilis. Journal of the Science of Food and Agriculture. 81:718-725.
 Siddhurajua, P., and Becker, k. 2001b. Effect of various domestic processing methods on antinutrents and I vitro protein and starch digestibility of two indigenous varieties of Indian triblepules, Musunapruriens var. utilis. Journal of the Science of Food and Agriculture. 49:3085-3067.
 Sathe, S. K., Salunkhe, D. K. 1984. Technology of removal of unwanted components of dry beans. Critical Reviews in Food Science and Nutrition.21: 263–287.
 Van der Poel, A. F. B. 1989. Effects of Processing on antinutrional factors (ANF) and nutritional value of legume seeds for non-ruminant feeding. In J. Huisman, A. F. B. van der Poel, & I. E. Liener (Eds.), Recent advances of research in antinutritional factors in legume seeds, Wagningen, Netherlands (pp. 213–229).
 Loaharanu, P. 2003. Irradiated foods. International Consultant, Former Head, Food and Environmental Protection Section Joint FAO/LAEA Division, Vienna, Austria.
 Lee, S. L., Lee, M.S., and Song, K.B. 2005. Effect of gamma-irradiation on the physicochemical properties of gluten films. Journal Food Scienc. 92:621-625.
 Brewer, M.S. 2009. Irradiation effects on meat flover: A review. Meat Science. 81:1-14.
 Audette_Stuarta, M., Houee_levinb, c., and Potier, M. 2005. Rediation_induced protein fragmentation and inactivation in liquid and Soil aqueous solutions. Role of oh and electron. Journal of Radiation Physics and Chemistry. 72: 301-306.
 Al-Masri, M.R., and Zarkawi, M. 1994. Effects of gamma irradiation on chemical compositions of some agricultural residues. Journal of Radiation Physics and Chemistry. 43:257-262.
 Shawrang, P. 2008. Effects of electron beam irradiation on dry matter degradation of wheat straw in the rumen. Pakistan Journal of Biological Sciences. 11: 676-679.
 Shawrang, P. 2008. Effects of electron beam irradiation on ruminal NDF and ADF degradation characteristics of barley straw. Journal of Animal and Veterinary Advances. 7:464-468.
 McManus W.R., and Manta, L. 1972. The effect of diet supplements and gamma irradiation on dissimilation quality roughages by ruminants. 1. Studies on the terylene bag technique effects of supplementation of base ration. Journal of Agricultural Science.79: 27-40.
 Kemme, P.A., Schlemmer, U., Mroz, Z., Jongbloed, A.W. 2006. Monitoring the stepwise phytate degradation in the upper gastrointestinal tract of pigs. Journal of the Science of Food and Agriculture. 86: 612–622.
 Johnson, L. F., and M. E. Tate. 1969. The structure of myo-inositol pentaphosphates. Annals of the New York Academy of Sciences. 165:526–532.
 Bryden, W. L., P. H. Selle, V. Ravindran, and T. Acamovic. 2007. Phytate: An anti-nutritive factor in animal diets. Pages 279– 284 in Poisonous Plants: Global Research and Solutions. K. E. Panter, T. L. Wieregna, and J. A. Pfister, ed. CABI Publishing, Wallingford, Oxon, UK.
 Nelson, T. S., T. R. Shien, R. J. Wodzinski, and J. H. Ware. 1971. Effect of supplemental phytase on the utilization of phytate phosphorus by chicks. Journal of Nutrition. 101:1289–1294.
 Cowieson, A. J., T. Acamovic, and M. R. Bedford. 2004a. The effect of phytic acid and phytase on the digestibility of maize starch for growing broiler chickens. Poultry Science. 83(Suppl. 1):1971. (Abstr.)
 Cowieson, A. J., T. Acamovic, and M. R. Bedford. 2004b. The effects of phytase and phytic acid on the loss of endogenous amino acids and minerals from broiler chickensBritish Poultry Science. 45:101–108.
 Tashiro, M. and Ikegami, S. 1996.Changes in activity, antigenicity and molecular size of rice bran trypsin inhibitor by in vitro digestion. Nutriant Science Vitaminol. 42:367-37.
 Ravindran, V., S. Cabahug, G. Ravindran, and W. L. Bryden. 1999. Influence of microbial phytase on apparent ileal amino acid digestibility of feedstuffs for broilers. Poultry Science. 78:699–706.
 Selle, P. H., V. Ravindran, R. A. Caldwell, and W. L. Bryden. 2000. Phytate and phytase: Consequences for protein utilization. Nutrition Research Reviews. 13:255–278.
 Newkirk, R. W., and H. L. Classen. 2001. The non-mineral impact of phytate in canola meal fed to broiler chicks. Animal Feed Science Technology. 91:115–128.
 Rutherfurd, S. M., T. K. Chung, and P. J. Moughan. 2002. The effect of microbial phytase on ileal phosphorus and amino acid digestibility in the broiler chicken. British Poultry Science. 44:598–606.
 Pirgozliev, V., O. Oduguwa, T. Acamovic, and M. R. Bedford. 2005. Effect of dietary phytase on performance, metabolizable energy and endogenous losses of broiler chickens. Pages 319–321 in Proc. 15th Eur. Symp. Poult. Nutr., Balatonfured, Hungary, September 25–29. World’s PoultryScience. Assoc., Hungarian Branch, Budapest.
 Sattar, A., Neelofar, X., and Akhtar, M.A. 1990. Irradiation and germination effects on phytate, protein and amino acids of soybean. Plant Foods for Human Nutrition. 40:185-194.
 Farkas, J. 1998. Irradiation as a method for decontaminating food: A review. International Journal Food Micobiol. 44:189-204.
 Shawrang, P., Mansouri, M.H., Sadeghi, A.A., and Ziaie, F. 2011. Evaluation and comparison of gamma and electron beam irradiation effects on total and free gossypol of cotton seed meal. Radiation Physic and Chemistry. 80:761-762.
 Taghinejad-Roudbaneh, M., Ebrahimi, S.R., Azizi, S., and Shawrang, P. 2010. Effects of electron beam irradiation on chemical composition, antinutritional factors, ruminal degradation and in vitro protein digestibility of canola meal. Journal of Radiation Physic and Chemistry. 79:1264-1269.
 Baht, R., Sridhar, K.R., and Yokotani, K.T. 2007. Effect of ionizing radiation on antinutritional features of velet bean (Mucunapruriens). Journal of Food Chemistry. 103:860-866.
 Taghinejad, M., Nikkhah, A., Sadeghi, A.A., Raisali, G., and Chamani, M. 2009. Effects of gamma irradiation on chemical composition antinutritional factors ruminal degradation and in vitro protein digestibility of full fat soybean. asian-Australian. Journal of Animal Science. 22:534-541.
 Ebrahimi-Mahmoudabad, S. R., and Taghinejad-Roudbaneh, M. 2011. Investigation of electron beam irradiation effects on anti-nutritional factors. Chemical composition and digestion kinetics of whole cottonseed, soybean and canola seed. Journal of Radiation Physics and Chemistry. 80:1441-1447.
 Koloczek, H. 1996. Fluorescence- Detected polymerization kinetics. Journal of protein chemistry, 15:447-454.
 Dafforn, T.R. and Pike, R.N. 2004.Physicalcharacterization serpin conformation. Methods. 32:150-158.
 Banchorndhevakul, S. 2002. Effect of urea and urea-gamma treatments on cellulose degradation of Thai rice straw and corn stalk. Radiat. Phys. Chem. 64: 417-422.
 Martin, E., Nolan, J., Nitsan, Z. and Farrell, D. 1998. Strategiesto improve the nutritive value of rice bran in poultry diets. IV. Effects of addition of fishmeal and a microbial phytaseto duckling diet on bird performance and amino acid digestibility. British Poultry Science. 39:612-621.
 Farage, R. S., Rashed, M.M., Hussein, A.A., and Abo-Hagar., A. 1995. Effect of γ radiation on the infected yellow corn and peanuts by Aspergillusflavus. Chem. Mikrobiol. Technol. Lebensm. 17:93–98.
 Joseph, A. and Dikshit, M. 1993. Effect of irradiation on the proteinase inhibitor activity and digestibility (in vitro) of safflower oilacake. Journal American Oil Chemists, Society. 70:935-937.
 Hafez, Y. S., Mohamed, A.I., Singh, G., and Hewedy, F.M. 1985. Effect of g-irradiation on protein and fatty acids of soybean. Journal Food Science. 50:1271-1274.
 Abu-Tarboush, H.M. 1998. Irradiation inactivation of somantinutritional factor in plant seeds. Journal of Agricultural and Food Chemistry. 46:2698-2702.
 Al-Kaisey, M.T., Alwan, A.K.H., Mohammad, M.H., and Saeed, A.H. 2003. Effect of gamma irradiation on antinutritional factors in broad bean. Journal of Radiation Physics and Chemistry. 67:493-496.
 Lee, C.C. 1962. Electron paramagnetic resonance (EPR) and packing studies on g-irradiationnflour. Cereal Chemistry. 39:147-155.
 Gaber, Mohamed, H. 2005. Effect of γ-Irradiation on the Molecular Properties of Bovine Serum Albumin. Journal of Bioscience and Bioengineering. 100 (2): 203-206
 Lee, J.W., Kim, J.H., Yook, H.S., Kang, K. O., Lee, S.Y., Hwang, H.J., and Byun, M.W. 2001. Effects of gamma radiation on the allergenic and antigenic properties of milk proteins. Journal of Food Protection. 64(2): 272-276.
 Murray, R.K., Granner, D.K., Mayes P.A., Rodwell V.W. 2003. Harper's Biochemistry. 26th ed., McGraw-Hill, New York, NY, USA.
 Pritchard, G. I., W.J. Pigden, and D.J. Minson. 1962. Effect of gamma radiation on the utilization of wheat straw by rumen microorganisms. Canadian Journal of Animal Science. 42:215.
 Takacs, E. and Wojnarouits, L. 1999. Effect of gamma irradiation on cotton cellulose. Journal of Radiation Physics and Chemistry. 55:663-666.
 Al-Masri, M.R. 1999. In vitro digestible energy of some agricultural residuse as influenced by gamma irradiation and sodium hydroxide. App RediatIso. 50: 295-301.
 M. Khosravi, B. Dastar, M. Aalami, P. Shawrang, O. Ashayerizadeh. Comparison of gamma–Irradiation and enzyme supplementation to eliminate antinutritional factors in rice bran in broiler chicken diets. journalofLivestock Science. Volume 191, Pages 51–56
 Alberti, A., Bertini, S. and Gastaldi, G. 2005. Election beam irradiated textile cellulose fibres. ESR Studies and derivatisation with glycidyl. Methacrylate (GMA). European Polymer Journal. 41:1787-1797.
 Auslender, V.L., A. A. Ryazantseu, and Spiridonov, G.A. 2002. The use of electron beam for solution of some ecological prolems in pulp and paper industry. Radiation Physics and Chemistry. 63:641-645.
 El-Niely HFG. Effect of radiation processing on antinutrients, in vitro protein digestibility and protein efficiency ratio bioassay of legume seeds. RadiatPhys Chem. 2007; 76: 1050–1057.
 Shawrang, P., Nikkhah. A., Zareshahne, A., Reisali, Gh., and Moradishahrbabaki, M. 2009. Effect of gamma irradiation on degradability of corn protein and kind of by pass protein. J. Pajouhesh and sazandegi. (21), 1:82. 26-34.
 Folawiyo Y. L., and R. Apenten., K. O. 1997. The effect of heat- and acid-treatment on the structure of rapeseed albumin (napin). Food Chemistry. 58:237-243.
 Campbell, G. L., Classen, H. L., Reichert, R. D., and Campbell, L. D. 1983. Improvement of the nutritive value of rye for broiler chickens by gamma irradiation-induced viscosity reduction. British Poultry Science. 24:205–212.
 Classen, H. L., Campbell, G. L., Rossnagel, B. G., Bhatty, R., and Reichert, R. D. 1985. Studies on the use of hull-less barley in chick diets. Deleterious effects and methods of alleviation. Canadian Journal of Animal Science. 65:725–733.
 Gnanasekharan, V., and. Chinnan., M. S.1992. Use of biocompetitive agent to control preharvestaflatoxin in drought stressed peanuts. Journal of Food Protection. 55:888–892.
 Maxwell, C.K.L., Díaz-Liano, G., and Smith, T.K. 2006. Mycotoxins in pet food: A review on worldwide prevalence and preventative strategies. Journal of Agricultural and Food Chemistry. 54:9623–9635.
 Samarajeewa, U., Sen, A.C., Cohen, M.D., and Wei, C.L. 1990. Detoxification of aflatoxins in food and feed by physical and chemical methods. Journal of Food Protection. 53:489–501.
 Bruyn, I. N. 2000. The application of high dose food irradiation in South Africa. Radiation Physics and Chemistry. 57:223– 225.
 Kabak, B.; Dobson, A.D.W.; Var, I. 2006. Strategies to prevent mycotoxin contamination of food and animal feed: A review. Critical Reviews in Food Science and Nutrition. 46:593-619.
 Diehl, J. F. 1990. Safety of irradiated foods. Marcel Dekker Inc., New York, NY.
 Herzallah, S., K. Alshawabkeh., and AL Fataftah, A. 2008. Aflatoxin decontamination of artificially contaminated feeds by sunlight, γ-Radiation, and Microwave heating. Journal of Applied Poultry Research. 17:515–521.
 Shantha, T., and Sreenivasa Murthy, V. 1977. Photodestruction of aflatoxin in groundnut oil. Indian Journal of Science and Technology. 15:453–454.
 Patterson, M. 1988. Sensitivity of bacteria to irradiation on poultry meat under various atmospheres. Lett. Appl. Microbiol. 7:55–58.
 Prado, G.; De Carvalho, E.P.; Oliveira, M.S.; Madeira, J.G.C.; Morais, V.D.; Correa, R.F.; Cardoso, V.N.; Soares, T.V.; da Silva, J.F.M.; Goncalves, R.C.P. 2003. Effect of gamma irradiation on the inactivation of aflatoxin B1 and fungal flora in peanut. Brazilian Journal of Microbiology. 34: 138-140.
 Farag, M.E.D.H. 1998.The nutritive value for chicks of full-fat soybean irradiated at up to 60 kGy. Animal Feed Science and Technology. 73:319-328.
 Aziz, N.H., and B. M. Youssef. 2002. Inactivation of naturally occurring of mycotoxins in some Egyptian foods and agricultural commodities by γ-irradiation. Egyptian Journal of Food Science. 30:167–177.
 Aquino, S.; Ferreira, F.; Rhbeiro, D.H.B.; Correa, B.; Greiner, R.; Villavicencio, A.L.C.H. 2005. Evaluation of viability of Aspergillusflavus and aflatoxins degradation in irradiated samples of maize.Braz. Journal of Microbiology. 36:352-356.
 Ghanem, I.; Orfi, M., Shamma, M. 2008. Effect of Gamma radiation on the inactivation of aflatoxin B1 in food and feed crops. Brazilian Journal of Microbiology. 39:787-791.