Effect of Dietary Phytase Transgenic Corn on Physiological Characteristics and the Fate of Recombinant Plant DNA in Laying Hens |
Gao, Chunqi
(State Key Laboratory of Animal Nutrition, College of Animal Science and Technology, China Agricultural University)
Ma, Qiugang (State Key Laboratory of Animal Nutrition, College of Animal Science and Technology, China Agricultural University) Zhao, Lihong (State Key Laboratory of Animal Nutrition, College of Animal Science and Technology, China Agricultural University) Zhang, Jianyun (State Key Laboratory of Animal Nutrition, College of Animal Science and Technology, China Agricultural University) Ji, Cheng (State Key Laboratory of Animal Nutrition, College of Animal Science and Technology, China Agricultural University) |
1 | Aeschbacher, K., R. Messikommer, L. Meile, and C. Wenk. 2005. Bt176 corn in poultry nutrition: Physiological characteristics and fate of recombinant plant DNA in chickens. Poult. Sci. 84: 385-394. DOI |
2 | AOAC. 2000. Official methods of analysis. 17th ed. Association of Official Analytical Chemists, Arlington, VA. |
3 | Appenzeller, L. M., S. M. Munley, D. Hoban, G. P. Sykes, L. A. Malley, and B. Delaney. 2009. Subchronic feeding study of grain from herbicide-tolerant maize DP-O9814O-6 in Sprague-Dawley rats. Food Chem. Toxicol. 47:2269-2280. DOI ScienceOn |
4 | Aulrich, K., H. Bohme, R. Daenicke, I. Halle, and G. Flachowsky. 2001. Genetically modified feeds in animal nutrition. Bacillus thuringiensis (Bt) corn in poultry, pig and ruminant nutrition. Arch. Anim. Nutr. 54:183-195. DOI |
5 | Carlos, A. B. and H. M. Edwards, Jr. 1998. The effects of 1,25-dihydroxycholecalicferol and phytase on the natural phytate phosphorus utilization by laying hens. Poult. Sci. 77:850-858. DOI |
6 | Chen, R., G. X. Xue, P. Chen, B. Yao, W. Z. Yang, Q. L. Ma, Y. L. Fan, Z. Y. Zhao, M. C. Tarczynski, and J. R. Shi. 2008. Transgenic maize plants expressing a fungal phytase gene. Transgenic Res. 17:633-643. DOI |
7 | Engelen, A. J., F. C. van der Heeft, P. H. G. Randsdorp, W. A. C. Somers, J. Schaefer, and B. J. C. van der Blat. 2001. Determination of phytase activity in feed by a colorometric enzymatic method: Collaborative interlaboratory study. J. AOAC Int. 84:629-633. |
8 | Frost, T. J., and D. A. Roland, Sr.. 1991. The influence of various calcium and phosphorus concentrations on tibia strength and eggshell quality of pullets during peak production. Poult. Sci. 70:963-969. DOI ScienceOn |
9 | Gao, C. Q., Q. G. Ma, C. Ji, X. G. Luo, H. F. Tang, and Y. M. Wei. 2012. Evaluation of the compositional and nutritional equivalency of phytase transgenic corn to conventional corn in roosters. Poult. Sci. 91:1142-1148. DOI ScienceOn |
10 | Gao, C. Q., S. G. Wu, H. Y. Yue, G. Ji, H. J. Zhang, Q. S. Liu, Z. Y. Fan, F. Z. Liu, and G. H. Qi. 2010. Toxicity of dietary melamine to laying ducks: Biochemical and histopathological changes and residue in eggs. J. Agric. Food Chem. 58:5199-5205. DOI ScienceOn |
11 | James, C. 2012. Global status of commercialized biotech/GM crops: 2012. ISAAA Briefs No. 44. ISAAA: Ithaca, NY. |
12 | Maenz, D. D. 2001. Enzymatic characteristics of phytases as they relate to their use in animal feeds. Pages 61-83. In: Enzymes in Farm Animal Nutrition (Ed. M. R. Bedford and G. G. Partridge). CAB International, Wallingford, UK. |
13 | Jennings, J. C., D. C. Kolwyck, S. B. Kays, A. J. Whetsell, J. B. Surber, G. L. Cromwell, R. P . Lirette, and K. C. Glenn. 2003. Determining whether transgenic and endogenous plant DNA and transgenic protein are detectable in muscle from swine fed Roundup Ready soybean. J. Anim. Sci. 81:1447-1455 |
14 | Li, S. F., Y. B. Niu, J. S. Liu, L. Lu, L. Y. Zhang, C. Y. Ran, M. S. Feng, B. Du, J. L. Deng, and X. G. Luo. 2013. Energy, amino acid, and phosphorus digestibility of phytase transgenic corn for growing pigs. J. Anim. Sci. 91:298-308. DOI ScienceOn |
15 | Ma, Q. G., C. Q. Gao, J. Y. Zhang, L. H. Zhao, W. B. Hao, and C. Ji. 2013. Detection of transgenic and endogenous plant DNA fragments and proteins in the digesta, blood, tissues, and eggs of laying hens fed with phytase transgenic corn. PLoS ONE 8: e61138. DOI |
16 | Myers, W. D., P. A. Ludden, V. Nayigihugu, and B. W. Hess. 2004. Technical note: A procedure for the preparation and quantitative analysis of samples for titanium dioxide. J. Anim. Sci. 82:179-183. |
17 | National Research Council (NRC). 1994. Nutrient requirements of poultry, 9th revised ed. National Academy Press, Washington DC, 42-43. |
18 | Nyannor, E. K. D. and O. Adeola. 2008. Corn expressing an Escherichia coli-derived phytase gene: Comparative evaluation study in broiler chicks. Poult. Sci. 87:2015-2022. DOI ScienceOn |
19 | Perney, K. M., A. H. Cantor, M. L. Straw, and K. L. Herkelman. 1993. The effect of dietary phytase on growth performance and phosphorus utilization of broiler chicks. Poult. Sci. 72:2106-2114. DOI ScienceOn |
20 | Phipps, R. H., E. R. Deaville, and B. C.Maddison. 2003. Detection of transgenic DNA and protein in rumen fluid, duodenal digesta, milk, blood and faeces of lactating dairy cows. Am. J. Dairy Sci. 86:4070-4078. DOI ScienceOn |
21 | Ravindran, V., P. C. Morel, G. G. Partridge, M. Hruby, and J. S. Sands. 2006. Influence of an Escherichia coli-derived phytase on nutrient utilization in broiler starters fed diets containing varying concentrations of phytic acid. Poult. Sci. 85:82-89. DOI |
22 | Ravindran, V., W. L. Bryden, and E. T. Kornegay. 1995. Phytates: Occurrence, bioavailability and implications in poultry nutrition. Poult. Avian Biol. Rev. 6:125-143. |
23 | Reuter, T. and K. Aulrich. 2003. Investigation on genetically modified maize (Bt-maize) in pig nutrition: Fate of feed-ingested foreign DNA in pig bodies. Eur. Food Res. Technol. 216:185-192. |
24 | Simons, P. C. M., H. A. J. Versteegh, A. W. Jongbloed, P. A. Kemme, M. G. E. Wolters, R. F. Beudeker, and G. J. Verschoor. 1990. Improvement of phosphorus availability by microbial phytase in broilers and pigs. Br. J. Nutr. 64:525-540. DOI ScienceOn |
25 | Walsh, M. C., S. G. Buzoianu, G. E. Gardiner, M. C. Rea, R. P. Ross, J. P. Cassidy, and P. G. Lawlor. 2012. Effects of short-term feeding of Bt MON810 maize on growth performance, organ morphology and function in pigs. Br. J. Nutr. 107:364-371. DOI ScienceOn |
26 | Walsh, M. C., S. G. Buzoianu, G. E. Gardiner, M. C. Rea, E. Gelencser, A. Janosi, M. M. Epstein, R. P. Ross, and P. G. Lawlor. 2011. Fate of transgenic DNA from orally administered Bt MON810 maize and effects on immune response and growth in pigs. PLoS One 6:e27177. DOI |
27 | McNaughton, J., M. Roberts, B. Smith, D. Rice, M. Hinds, J. Schmidt, M. Locke, K. Brink, A. Bryant, C. Sanders, R. Layton, I. Lamb, and B. Delaney. 2008. Comparison of broiler performance and carcass yields when fed diets containing transgenic maize grains from event DP-O9814O-6 (Optimum GAT), nearisogenic control maize grain, or commercial reference maize grains. Poult. Sci. 87:2562-2572. DOI ScienceOn |
28 | Zhang, Z. B., E. T. Kornegay, J. S. Radcliffe, D. M. Denbow, H. P. Veit, and C. T. Larsen. 2000. Comparison of genetically engineered microbial and plant phytase for young broilers. Poult. Sci. 79:709-717. DOI |