Advanced search
Publication Cover
World's Poultry Science Journal Volume 67, 2011 - Issue 4
Submit an article Journal homepage
23
Views
8
CrossRef citations to date
0
Altmetric
Articles

Prospects for the use of genetically modified crops with improved nutritional properties as feed materials in poultry nutrition

S. SwiatkiewiczDepartment of Animal Nutrition and Feed Science, National Research Institute of Animal Production, ul. Krakowska 1, 32-083Balice, PolandCorrespondence[email protected]
&
A. Arczewska-WłosekDepartment of Animal Nutrition and Feed Science, National Research Institute of Animal Production, ul. Krakowska 1, 32-083Balice, Poland
Pages 631-642 | Received 11 May 2011, Accepted 13 Jun 2011, Published online: 23 Sep 2019

References

  • ADEOLA, O. (2005) Metabolizable energy and amino acid digestibility of high-oil maize, low-phytate maize and low-phytate soybean meal for White Pekin ducks. British Poultry Science 46: 607-614.
  • ARMSTRONG, J.D., INGLIS, G.D., McALLISTER, T.A., KAWCHUK, L.M. and CHENG, K.J. (2002) Expression of a Fibrobacter succinogenes 1,3-1,4-β-glucanase in potato (Solanum tuberosum). American Journal of Potato Research 1: 39-48.
  • BAAH, J., SCOTT, T.A., KAWCHUK, L.M., ARMSTRONG, J.D., SELINGER, L.B., CHENG, K.J. and McALLISTER, L.B. (2002) Feeding value in broiler chicken diets of potato expressing a glucanase gene from Fibrobacter succinogenes. Canadian Journal of Animal Science 82: 111-113.
  • BEAGLE, J.M., APGAR, G.A., JONES, K.L., GRISWOLD, K.E., RADCLIFFE, J.S., QIU, X., LIGHTFOOT, D.A. and IQBAL, M.J. (2006) The digestive fate of Eschericha coli glutamate dehydrogenase dezoxyribonucleic acid from transgenic corn in diets fed to weanling pigs. Journal of Animal Science 84: 597-607.
  • BOHME, H., RUDLOFF, E., SCHONE, F., SCHUMANN, W., HUTHER, L., FLACHOWSKY, G. (2007) Nutritional assessment of genetically modified rapeseed synthesizing high amounts of mid-chain fatty acids including production responses of growing-finishing pigs. Archives of Animal Nutrition 61: 308-316.
  • BRINCH-PEDERSEN, H., HATZACK, F., STOGER, E., ARCALIS, E., PONTOPIDAN, K. and HOLM, P.B. (2006) Heat-stable phytases in transgenic wheat (Triticum aestivum L.): deposition pattern, thermostability, and phytate hydrolysis. Journal Agricultural and Food Chemistry 54: 4624-4632.
  • CEYLAN, N., SCHEIDELER, S.E. and STILBORN, H.L. (2003) High available phosphorus corn and phytase in layer diets. Poultry Science 82: 789-795.
  • CHENG-CHIH, T., CHIEH-HSIEN, L., CHI-SHENG, Y., CHIEN-KU, L. and HAU-YANG, T. (2008) Toxicological evaluation of transgenic rice flour with an Escherichia coli phytase gene appA by subchronic feeding study in Wistar rats. Journal of the Science of Food and Agriculture 88: 382-388.
  • DENBOW, M.B., GRABAU, E.A., LACY, G.H., KORNEGAY, E.T., RUSSELL, D.R. and UMBECK, P.F. (1998) Soybeans transformed with a fungi phytase gene improve phosphorus availability for broilers. Poultry Science 77: 878-881.
  • DILGER, R.N. and ADEOLA, O. (2006) Estimation of true phosphorus digestibility and endogenous phosphorus loss in growing chickens fed conventional and low-phytate soybean meals. Poultry Science 85: 661-668.
  • DOUGLAS, M.W., PETER, C.M., BOILING, S.D., PARSONS, C.M. and BAKER, D.H. (2000) Nutritional evaluation of low phytate and high protein corn. Poultry Science 79: 1586-1591.
  • DRAKAKAKI, G., MARCEL, S., GLAHN, R.P., LUND, E.K., PARIAGH, S., FISCHER, R., CHRISTOU, P. and STOGER, E. (2005) Endosperm-specific co-expression of recombinant soybean ferritin and Aspergillus phytase in maize results in significant increases in the levels of bioavailable iron. Plant Molecular Biology 59:869-880.
  • EDWARDS, H.M., DOUGLAS, M.W., PARSONS, C.M. and BAKER, D.H. (2000) Protein and energy evaluation of soybean meals processed from genetically modified high-protein soybeans. Poultry Science 79: 525-527.
  • FLACHOWSKY, G., CHESSON, A. and AULRICH, K. (2005) Animal nutrition with feeds from genetically modified plants. Archives of Animal Nutrition 59: 1-4.
  • FLACHOWSKY, G., AULRICH, K., BOHME, H. and HALLE, I. (2007) Studies on feeds from genetically modified plants (GMP) - Contributions to nutritional and safety assessment. Animal Feed Science and Technology 133: 2-30.
  • FLACHOWSKY, G. (2010) Prospective of genetically modified feeds for livestock production. Animal Nutrition and Feed Technology 10: 1-10.
  • GUTHRIE, T.A., APGAR, G.A., GRISWOLD, K.E., LINDEMANN, M.D., RADCLIFFE, J.S. and JACOBSON, B.N. (2004) Nutritional value of a corn containing a glutamate dehydrogenase gene for growing pigs. Journal of Animal Science 82: 1693-1698.
  • HAMMOND, B.G., VICINI, J.L., HARTNELL, G.F., NAYLOR, M.W., KNIGHT, C.D., ROBINSON, E.H., FUCHS, R.L. and PADGETTE, S.R. (1996) The feeding value of soybeans fed to rats, chickens, catfish and dairy cattle is not altered by genetic incorporation of glyphosate tolerance. Journal of Nutrition 126: 717-727.
  • HE, X,Y., TANG, M.Z., LUO, Y.B., LI, X., CAO, S.S., YU, J.J., DELANEY, B. and HUANG, K.L. (2009) A 90-day toxicology study of transgenic lysine-rich maize grain (Y642) in Sprague-Dawley rats. Food and Chemical Toxicology 47: 425-432.
  • HILL, B.E., SUTTON, A.L. and RICHERT, B.T. (2009) Effects of low-phytic acid corn, low-phytic acid soybean meal, and phytase on nutrient digestibility and excretion in growing pigs. Journal of Animal Science 87: 1518-1527.
  • HU, Y., LI, M., PIAO, J. and YANG, X. (2010) Nutritional evaluation of genetically modified rice expressing human lactoferrin gene. Journal of Cereal Science 52: 350-355.
  • HUMPHREY, B.D., HUANG, N. and KLASING, K.C. (2002) Rice expressing lactoferrin and lysozyme has antibiotic-like properties when fed to chicks. Journal of Nutrition 132: 1214-1218.
  • JAMES, C. (2011) Global Status of Commercialized Biotech/GM Crops: 2010. ISAAA Brief 42–2010. International Service for the Acquisition of Agri-biotech Applications.
  • LI, Y.C., LEDOUX, D.R., VEUM, T.L., RABOY, V. and ERTL, D.S. (2000) Effects of low phytic acid corn on phosphorus utilization, performance, and bone mineralization in broiler chicks. Poultry Science 79: 1444-1450.
  • LINARES, L.B., BROOMHEAD, J.N., GUAIUME, E.A., LEDOUX, D.R., VEUM, T.L. and RABOY, V. (2007) Effects of low phytate barley (Hordeum vulgare L.) on zinc utilization in young broiler chicks. Poultry Science 86: 299-308.
  • LUCAS, D.M., TAYLOR, M.L., HARTNELL, G.F., NEMETH, M.A., GLENN, K.C. and DAVIS, S.W. (2007) Broiler performance and carcass characteristics when fed diets containing lysine maize (LY038 or LY038 x MON, or commercial 810), control, or conventional reference maize. Poultry Science 86: 2152-2161.
  • McNAUGHTON, J., ROBERTS, M., SMITH, B., RICE, D., HINDS, M., SANDERS, C., LAYTON, R., LAMBS, I. and DELANEY, B. (2008) Comparison of broiler performance when diets containing event DP3O5423-1, nontransgenic near-isoline control, or commercial reference soybean meal, hulls, and oil. Poultry Science 87: 2549-2561.
  • MEJIA, L., JACOBS, C.M., UTTERBACK, P.L., PARSONS, C.M., RICE, D., SANDESRS, C., SMITH, B., IIAMS, C. and SMITH, B. (2010) Evaluation of soybean meal with the genetically modified output trait DP-3O5423-1 when fed to laying hens. 2010 International Poultry Science Forum, January 25–26, 2010, Abstract P227.
  • NELSON, T.S., FERRARA, L.W. and STORER, N.L. (1968) Phytate phosphorus content of feed ingredients derived from plants. Poultry Science 47: 1372-1374.
  • NYANNOR, E.K.D. and ADEOLA, O. (2008) Corn expressing an Escherichia coli-derived phytase gene: Comparative evaluation study in broiler chicks. Poultry Science 87: 2015-2022.
  • NYANNOR, E.K.D., BEDFORD, M.R. and ADEOLA, O. (2009) Corn expressing an Escherichia coli-derived phytase gene: Residual phytase activity and microstructure of digesta in broiler chicks. Poultry Science 88: 1413-1420.
  • O'QUINN, P.R., NELSSEN, J.L., GOODBAND, R.D., KNABE, D.A., WOODWORTH, J.C., TOKACH, M.D. and LOHRMANN, T.T. (2000) Nutritional value of a genetically improved high-lysine, high oil corn for young pigs. Journal of Animal Science 78: 2144-2149.
  • PEDERSEN, C., BOERSMA, M.G. and STEIN, H.H. (2007) Energy and nutrient digestibility in NutriDense corn and other cereal grains fed to growing pigs. Journal of Animal Science, 85: 2473-2483.
  • PEN, J., VERWOERD, T.C., VAN PARIDON, P.A., BEUDEKER, R.F., VAN DEN ELZEN, P.J.M., GEERSE, K., VAN DER KLIS, J.D., VERSTEEGH, H.A.J., VAN OOYEN, A.J.J. and HOEKEMA, A. (1993) Phytase-containing transgenic seeds as a novel feed additive for improved phosphorus utilization. Nature Biotechnology 11: 811-814.
  • POWERS, W.J., FRITZ, E.R., FEHR, W. and ANGEL, R. (2006) Total and water-soluble phosphorus excretion from swine fed low-phytate soybeans. Journal of Animal Science 84: 1907-1915.
  • RAVINDRAN, V., TABE, L.M., MOLVIG, L., HIGGINS, T.J.W. and BRYDEN, W.L. (2002) Nutritional evaluation of transgenic high-methionine lupins (Lupinus angustifolius) with broiler chickens. Journal of the Science of Food and Agriculture 82: 280-285.
  • SALARMOINI, M., CAMPBELL, G.L., ROSSNAGEL, B.G. and RABOY, V. (2008) Nutrient retention and growth performance of chicks given low-phytate conventional or hullless barleys. British Poultry Science 49: 321-328.
  • SANDS, J.S., RAGLAND, D., WILCOX, J.R. and ADEOLA, O. (2003) Relative bioavailability of phosphorus in low-phytate soybean meal for broiler chicks. Canadian Journal of Animal Science 83: 95-100.
  • SEBASTIAN, S., TOUCHBURN, S.P. and CHAVEZ, E.R. (1998) Implications of phytic acid and supplemental microbial phytase in poultry nutrition: a review. World's Poultry Science Journal 54: 27-47.
  • SNOW, J.L., DOUGLAS, M.W., BATAL, A.B., PERSIA, M.E., BIGGS, P.E. and PARSONS, C.M. (2003) Efficacy of high available phosphorus corn in laying hen diets. Poultry Science 82: 1037-1041.
  • SWIATKIEWICZ, S., KORELESKI, J. and ZHONG, D.Q. (2001) The bioavailability of zinc from inorganic and organic sources in broiler chickens as affected by addition of phytase. Journal of Animal and Feed Sciences 10: 317-328.
  • TAKADA, R. and OTSUKA, M. (2007) Effects of feeding high tryptophan GM-rice on growth performance of chickens. International Journal of Poultry Science 6: 524-526.
  • TAYLOR, M.L., GEORGE, B., HYUN, Y., NEMETH, M.A., KARUNANANDAA, K., LOHRMANN, T.T. and HARTNELL, G.F. (2004) Broiler performance and carcass parameters of broiler fed diets containing lysine maize. Poultry Science 83 (Suppl. 1): 315 (Abstract).
  • TRUKSA, M., VRINTEN, P. and QIU, X. (2009). Metabolic engineering of plants for polyunsaturated fatty acid production. Molecular Breeding 23: 1-11.
  • UFAZ, S. and GALILI, G. (2008) Improving the content of essential amino acids in crop plants: goals and opportunities. Plant Physiology 147: 954-961.
  • VENEGAS-CALERON, M., SAYANOVA, O. and NAPIER, J.A. (2010) An alternative to fish oils: Metabolic engineering of oil-seed crops to produce omega-3 long chain polyunsaturated fatty acids. Progress in Lipid Research 49: 108-119.
  • VON WETTSTEIN, D., MIKHAYLENKO, G., FROSETH, J.A., KANNANGARA, C.G. (2000) Improved barley broiler feed with transgenic malt containing heat-stable (1,3-1,4)-β-glucanase. Proceedings of the National Academy of Sciences USA 97: 13512-13517.
  • VON WETTSTEIN, D., WARNER, J., KANNANGARA, C.G. (2003) Supplements of transgenic malt or grain containing (1,3-1,4)-β-glucanase increase the nutritive value of barley-based broiler diets to that of maize. British Poultry Science 44: 438-449.
  • WAKASA, K., HASEGAWA, H., NEMOTO, H., MATSUDA, F., MIYAZAWA, H., TOZAWA, Y., MORINO, K., KOMATSU, A., YAMADA, T., TERAKAWA, T and MIYAGAWA, H. (2006) High-level tryptophan accumulation in seeds of transgenic rice and its limited effects on agronomic traits and seed metabolite profile. Journal of Experimental Botany 57: 3069-3078.
  • WALDROUP, P.W., KERSEY, J.H., SALEH, E.A., FRITTS, C.A., YAN, F., STILLBORN, H.L., CRUM Jr, R.C. and RABOY, V. (2000) Nonphytate phosphorus requirements and phosphorus excretion of broiler chicks fed diets composed of normal or high available phosphate corn with and without phytase. Poultry Science 79: 1451-1459.
  • YAN, F., KERSEY, J.H., FRITTS, C.A., WALDROUP, P.W., STILBORN, H.L., CRUM Jr, D.C., RICE, D.W. and RABOY, V. (2000) Evaluation of normal yellow dent corn and high available phosphorus corn in combination with reduced dietary phosphorus and phytase supplementation for broilers grown to market weights in litter pens. Poultry Science 79: 1282-1289.
  • ZHANG, Z.B., KORNEGAY, E.T., RADCLIFFE, J.S., DENBOW, D.M., VEIT, H.P. and LARSEN, C.T. (2000a) Comparison of genetically engineered microbial and plant phytase for young broilers. Poultry Science 79: 709-717.
  • ZHANG, Z.B., KORNEGAY, E.T., RADCLIFFE, J.S, WILSON, J.H. and VEIT, H.P. (2000b) Comparison of phytase from genetically engineered Aspergillus and canola in weanling pig diets. Journal of Animal Science 78: 2868-2878.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.