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British Poultry Science Volume 47, 2006 - Issue 5
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Original Articles

Dietary cholecalciferol and phosphorus influence intestinal mucosa phytase activity in broiler chicks

E.M. Onyango Department of Animal Sciences, Purdue University, West Lafayette, IN, USACorrespondence[email protected]
,
E.K. Asem Basic Medical Sciences, Purdue University, West Lafayette, IN, USA
&
O. Adeola Department of Animal Sciences, Purdue University, West Lafayette, IN, USA
Pages 632-639 | Accepted 10 Jul 2006, Published online: 18 Jan 2007

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F. Salisbury, A.J. Cowieson & R.M. Gous. (2021) Constraints on the modelling of calcium and phosphorus growth of broilers: a systematic review. World's Poultry Science Journal 77:4, pages 775-795.
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S.V. Rama Rao, M.V.L.N. Raju, A.K. Panda, G. Shyam Sunder & R.P. Sharma. (2009) Performance and bone mineralisation in broiler chicks fed on diets with different concentrations of cholecalciferol at a constant ratio of calcium to non-phytate phosphorus. British Poultry Science 50:4, pages 528-535.
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Articles from other publishers (22)

Moritz Novotny, Vera Sommerfeld, Jochen Krieg, Imke Kühn, Korinna Huber & Markus Rodehutscord. (2023) Mucosal phosphatase activity, phytate degradation, and mineral digestibility in 6-week-old turkeys and broilers at different dietary levels of phosphorus and phytase and comparison with 3-week-old animals. Poultry Science 102:4, pages 102476.
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Ceinwen Evans, Hamish Irving, Jari Vehmanperä, Kari Juntunen, John Patience, Qingyun Li, Amy Petry, Jason Lee, Kyle Brown, Aaron Cowieson, Daniel Menezes-Blackburn, Ralf Greiner & Ursula KonietznyMarkus Rodehutscord, Vera Sommerfeld, Imke Kühn & Michael R. Bedford. 2022. Enzymes in Farm Animal Nutrition. Enzymes in Farm Animal Nutrition 124 152 .
Belén Infanzón, Kevin R. Herrmann, Isabell Hofmann, Sabine Willbold, Anna Joëlle Ruff & Ulrich Schwaneberg. (2022) Phytase blends for enhanced phosphorous mobilization of deoiled seeds. Enzyme and Microbial Technology 153, pages 109953.
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Kevin R. Herrmann, Isabell Hofmann, Dennis Jungherz, Malte Wittwer, Belén Infanzón, Stefanie Nicole Hamer, Mehdi D. Davari, Anna Joëlle Ruff & Ulrich Schwaneberg. (2021) Generation of phytase chimeras with low sequence identities and improved thermal stability. Journal of Biotechnology 339, pages 14-21.
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Vera Sommerfeld, Korinna Huber, Jörn Bennewitz, Amélia Camarinha-Silva, Martin Hasselmann, Siriluck Ponsuksili, Jana Seifert, Volker Stefanski, Klaus Wimmers & Markus Rodehutscord. (2020) Phytate degradation, myo-inositol release, and utilization of phosphorus and calcium by two strains of laying hens in five production periods. Poultry Science 99:12, pages 6797-6808.
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İsmail YAVAŞ, Ali Anıl ÇENESİZ & Necmettin CEYLAN. (2020) Effects of Herbal Vitamin D3 and Phytase Supplementation to Broiler Feed on Performance, Bone Development and Serum Parameters of Broilers. Tarım Bilimleri Dergisi.
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A. S. Valable, M. P. Létourneau-Montminy, S. Klein, L. Lardic, F. Lecompte, S. Metayer-Coustard, N. Même, G. Page, M. J. Duclos & A. Narcy. (2020) Early-life conditioning strategies to reduce dietary phosphorus in broilers: underlying mechanisms. Journal of Nutritional Science 9.
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Sreeja Ajith, Jyotirmoy Ghosh, Divya Shet, S. ShreeVidhya, B. D. Punith & A. V. Elangovan. (2019) Partial purification and characterization of phytase from Aspergillus foetidus MTCC 11682. AMB Express 9:1.
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Kevin R. Herrmann, Anna Joëlle Ruff, Belén Infanzón & Ulrich Schwaneberg. (2019) Engineered phytases for emerging biotechnological applications beyond animal feeding. Applied Microbiology and Biotechnology 103:16, pages 6435-6448.
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Yuxin Shao, Qian Wen, Shumin Zhang, Lin Lu, Liyang Zhang, Xiudong Liao & Xugang Luo. (2018) Dietary supplemental vitamin D 3 enhances phosphorus absorption and utilisation by regulating gene expression of related phosphate transporters in the small intestine of broilers . British Journal of Nutrition 121:1, pages 9-21.
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J.C. Han, J.G. Wang, G.H. Chen, J.L. Zhang, N. Zhang, H.X. Qu, Y. Guo, Y.F. Yan & X.J. Yang. (2018) 1α-Hydroxycholecalciferol improves the growth performance and up-regulates the mRNA expression of vitamin D receptor in the small intestine and kidney of broiler chickens. Poultry Science 97:4, pages 1263-1270.
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J.C. Han, G.H. Chen, J.L. Zhang, J.G. Wang, H.X. Qu, Y.F. Yan, X.J. Yang & Y.H. Cheng. (2017) Relative biological value of 1α-hydroxycholecalciferol to 25-hydroxycholecalciferol in broiler chicken diets. Poultry Science 96:7, pages 2330-2335.
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M. Rodehutscord, O. Adeola, R. Angel, P. Bikker, E. Delezie, W.A. DozierIIIIII, M. Umar Faruk, M. Francesch, C. Kwakernaak, A. Narcy, C.M. Nyachoti, O.A. Olukosi, A. Preynat, B. Renouf, A. Saiz del Barrio, K. Schedle, W. Siegert, S. Steenfeldt, M.M. van Krimpen, S.M. Waititu & M. Witzig. (2017) Results of an international phosphorus digestibility ring test with broiler chickens. Poultry Science 96:6, pages 1679-1687.
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M. Rodehutscord & P. Rosenfelder. 2016. Phytate destruction - consequences for precision animal nutrition. Phytate destruction - consequences for precision animal nutrition 15 32 .
Bruno Tilocca, Maren Witzig, Markus Rodehutscord & Jana Seifert. (2016) Variations of Phosphorous Accessibility Causing Changes in Microbiome Functions in the Gastrointestinal Tract of Chickens. PLOS ONE 11:10, pages e0164735.
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Korinna Huber, Ellen Zeller & Markus Rodehutscord. (2015) Modulation of small intestinal phosphate transporter by dietary supplements of mineral phosphorus and phytase in broilers. Poultry Science 94:5, pages 1009-1017.
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Y. Shastak, E. Zeller, M. Witzig, M. Schollenberger & M. Rodehutscord. (2014) Effects of the composition of the basal diet on the evaluation of mineral phosphorus sources and interactions with phytate hydrolysis in broilers. Poultry Science 93:10, pages 2548-2559.
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L. de P. Naves, P. B. Rodrigues, A. G. Bertechini, A. D. Corr?a, D. H. de Oliveira, E. C. de Oliveira, W. F. Duarte & M. R. R. da Cunha. (2014) Comparison of Methodologies to Quantify Phytate Phosphorus in Diets Containing Phytase and Excreta from Broilers. Asian-Australasian Journal of Animal Sciences 27:7, pages 1003-1012.
Crossref
Wei Wang, Zhiyue Wang, Haiming Yang, Yujuan Cao & Xiaochun Zhu. (2013) Effects of phytase supplementation on growth performance, slaughter performance, growth of internal organs and small intestine, and serum biochemical parameters of broilers. Open Journal of Animal Sciences 03:03, pages 236-241.
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E. M. OnyangoO. Adeola. (2011) Dietary cholecalciferol lowers the maximal activity of intestinal mucosa phytase in ducklings fed low-phosphorus diets. Canadian Journal of Animal Science 91:3, pages 399-404.
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J.C. Han, X.D. Yang, H.X. Qu, M. Xu, T. Zhang, W.L. Li, J.H. Yao, Y.R. Liu, B.J. Shi, Z.F. Zhou & X.Y. Feng. (2009) Evaluation of equivalency values of microbial phytase to inorganic phosphorus in 22- to 42-day-old broilers. Journal of Applied Poultry Research 18:4, pages 707-715.
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Savaram V. Rama Rao, Mantena V.L.N. Raju, Arun K. Panda, Poonum N. Saharai, Maddula R. Reddy, Gajula Shyam Sunder & Ramashriya P. Sharma. (2008) Effect of Surfeit Concentrations of Vitamin D<SUB>3</SUB> on Performance, Bone Mineralization and Mineral Retention in Commercial Broiler Chicks. The Journal of Poultry Science 45:1, pages 25-30.
Crossref

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