Últimos avances sobre los mecanismos reguladores de la absorción de fósforo
Como nutriente esencial el P ha sido investigado durante muchos años, pero en la actualidad, debido al efecto contaminante de este mineral, liberado en el ambiente a través de las excretas de los animales domésticos, nuevas líneas de investigación han aparecido con miras a determinar las exigencias nutricionales y a determinar los factores que afectan la excreción. La absorción es tal vez uno de los factores que más influencia la cinética metabólica del P, y esta a su vez, es influenciada por varios factores para mantener estable su homeostasis. Existen diferencias entre los animales rumiantes y monogástricos en relación a la forma como el P es metabolizado en el organismo, sin embargo los sistemas de absorción intestinal poseen característ... Ver más
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Últimos avances sobre los mecanismos reguladores de la absorción de fósforo MCDOWELL, L. 1997. Minerals for grazing ruminant in tropical regions. Florida: University of Florida, 81p. MEJIA-HARO, I.; BRINK, D.; FAJARDO-PEÑA, J.; ORTIZ-DE LA ROSA, B. 2001. Efecto de diferentes proporciones de Ca:P en dietas de ovinos en la absorción de fósforo. Agrociencia, 35: 497-502. SCHRÖDER, B.; KAUNE, R.; HARMEYER, J. 1991. Effects of calcitrol on stimulation of ion transport in pig jejuna mucosa. J Physol, 433: 451-465. SALVIANO, L. 1996. Efeito de diferentes proporções de cálcio e fósforo sobre as perdas endógenas e absorção real de fósforo em ovinos. Tese (Doutorado) Centro de Energia Nuclear na Agricultura. Universidade de São Paulo. Piracicaba, p 83. RAZZAQUE, M.; LANSKE, B. 2007. The emerging role of the fibroblast growth factor-23-klotho axis in renal regulation of phosphorus homeostasis. Journal of Endocrinology, 194:1-10. PFEFFER, E.; BEED, D.; VALK, H. 2005. Phosphorus metabolism in ruminants and requirements of cattle. IN: Pfeffer, E.; Hristov, A. Nitrogen and phosphorus nutrition of cattle. Reducing the environmental impact of cattle operations. London: CABI, 195-231. NRC. 2007. Nutrient requirement of small ruminants: Sheep, Goats, Cervids, and new world camelids. National Research Council, National Academic Press, Washington, 362p. MURER, H.; FORSTER, I.; BIBER, J. 2004. The sodium phosphate cotransporter family SLC34. Pflugers Archives, 447: 763-767. MONTGOMERY, J.; BLANTON, J.; HORST, R.; GALYEAN, M.; MARROW, K.; WESTER, D.; MILLER, M. 2004. Effects of biological type of beef steer on vitamin D, calcium and phosphorus status. Journal of Animal Science, 82: 2043- 2049. MARKS, J.; SRAI, S.; BIBER, J.; MURER, H.; UNWIN, R.; DEBNAM, E. 2006. Intestinal phosphate absorption and the effect of vitamin D: a comparison of rats with mice. Experimental physiology, 91: 531-537. SCHRÖDER, B.; BREVES, G. 1996. Mechanism of phosphate uptake into brush-border membrane vesicles from goat jejunum. Journal of Comparative Physiology B, 166: 230-246. LOUVANDINI, H.; VITTI, M. 2007. Cinética de fósforo com modelos matemáticos em ovinos adultos. Pesquisa Agropecuária Brasileira, 42: 1467- 1472. KNOWLTO, K.; HERBEIN, J.; MEISTER-WEISBARTH, M.; WARK, W. 2011. Nitrogen and phosphorus partitioning in lactating Holstein cows fed different sources of dietary protein and phosphorus. Journal of Dairy Science, 84: 1210- 1217. KINKAID, R.; RODEHUTSCO, R. 2005. Phosphorus metabolism in the rumen. En: Pfeffer P, Hristov A. Nitrogen and phosphorus nutrition of cattle. Reducing the environmental impact of cattle operations. London: CABI: 187-193. HUBER, K,; WALTER, C.; SCHRÖDER, B.; BIBER, J.; MURER, H.; BREVES, G. 2000. Epithelial phosphate transporter in small ruminat. Ann NY Acad Sci, 915: 95-97. HILFIKER, H.; HATTEENHAUER, O.; TRAEBERT, M.; FOSTER, I.; MUERER, H.; BIBER, J. 1998. Characterization of a murine type II sodium-phosphate cotransporter expressed in mammalian small instestine. Proc Nalt Acad Sci, 95: 14564-14569. GIORGIEVSKII, V.; 1982. The physiological role of macroelement. En: Giorgievskii, V.I.; Annenkov, B.N.; Samkhin, V.I. (Eds.). Mineral nutrition of animal. London: Butterworths, 91-70. FIELD, A.; SUTTLE, N.; NISBED, D. 1975. Effect of diets low in calcium and phosphorus on the development of growing lambs. Journal Agricultural Science, 85: 435-442. ETO, N.; TOMITA, M.; HAYASHI, M. 2006. NaPi-mediated tnascellular permeation is the dominant inorganic phosphate absorption in rats. Drug Metabolism Phamacokinetic, 21: 217-221. SCHRÖDER, B.; FAILING, K.; PFEFFER, E.; BREVES, G. 1995. Mechanism of intestinal phosphate transport in small ruminants. British Journal of Nutrition, 74:635-648. SHANKLIN, N. 2001. Effect of form and amount of phosphorus and phytase supplementation on phosphorus utilization by ruminants. Faculty of the Virginia Polytechnic Institute and State University. Virginia, US. CHURC. 1994. El rumiante, fisiología digestiva y nutrición. Barcelona: Acribia, 641p. info:eu-repo/semantics/article Text http://purl.org/coar/access_right/c_abf2 info:eu-repo/semantics/openAccess http://purl.org/coar/version/c_970fb48d4fbd8a85 info:eu-repo/semantics/publishedVersion http://purl.org/redcol/resource_type/ARTREV http://purl.org/coar/resource_type/c_dcae04bc http://purl.org/coar/resource_type/c_6501 YANO, F.; YANO, H.; BREVES, G. 1991. Calcium and phosphorus metabolism in ruminants. In: INTERNATIONAL SYMPOSIUM ON RUMINANT PHYSIOLOGY. New York: Academic Press, 277- 295. STAUBER, A.; RANDANOVIC, T.; STANGE, G.; MURER, H.; WAGNER, C.; BIBER, J. 2005. Regulation of intestinal phosphate transport II. Metabolic acidosis stimulates Na+-dependent phosphate absorption and expression of the Na+-Pi cotransporter Na Pi-II in small intestine. American Journal Physiology Gastrointestinal Liver Physiology, 288: G501-G506. XU, H.; BAI, L.; COLLINS, J.; GUISHAN, F.; 2002. Age dependent regulation of rat intestinal type IIb sodium-phosphate cotransporter by 1,25-(OH)2 vitamin D3. American Journal Physiology Cell Physiology, 282: 487- 493. WILLIAMS, K.; DE LUCA, H. 2007. Characterization of intestinal phosphate absorption using a model in vivo method. American Journal Physiology Endocrinology and Metabolism, 292: E1917- E1921. WILCOCK, R. 2008. Land-Water Interactions: Impacto in the aquatic enviroment. En: McDowell R.W, Ed. Enviromental Impact of Pasture-Based Farming. UK: CABI, 297p. VITTI, D.; BUENO, I.; DA SILVA FILHO, J.; SOARES, T.; PATIÑO, R.; NASSER, E.; DE ALMEIDA, A.; SALLAM, S.; NASCIMENTO FILHO, V. 2008. The effect of dietary intake of phosphorus on true absorption and excretion of phosphorus in brazilian Santa Inês Sheep. UK: Procedings. Of the British Society of the Animal Science. Scarborougt, p185. VITTI, D.; KEBREAD, E.; ABDALLA, A.; DE CARVALHO, F.; DE RESENDE, K.; CROMPTON, L.; FRANCE, J. 2000. A kinetic models of phosphorus metabolism in growing goats. Journal of Animal Science, 78:2106-2716. VITTI, D. 2000. Modelos biomatemáticos do metabolismo de fósforo em ovinos e caprinos. Centro de Energia Nuclear na Agricultura – Universidade de São Paulo, Piracicaba. UNDERWOOD, E.; SUTTLE, N. 2003. Los minerales en la nutrición del ganado. Zaragoza, 637p. TERNOUTH, J.; SEVILLA, C. 1990. Dietary calcium and phosphorus repletion of lambs. Australian Journal of Agricultural Research, 41: 413-420. CSIRO. 2007. Nutrient requeriments of domesticated ruminants. Collingwood, 270p. CALL, J.; BUTCHER, J.; BLAKE, J.; SMART, R.; SHUPE, J. 1978. Phosphorus influence of growth and reproduction in beef cattle. Journal of Animal Science, 47: 216-225. BUSCHE, R.; SCHRÖDER, R.; HUBER, K.; SALLMANN, H. 2007. The effect of dietary phosphorus deficiency on surface pH and membrane composition of the mucosa epithelium in caprine jejunum. Journal of Comparative Physiology B, 177: 135-142. https://revistas.unisucre.edu.co/index.php/recia/article/view/230 Como nutriente esencial el P ha sido investigado durante muchos años, pero en la actualidad, debido al efecto contaminante de este mineral, liberado en el ambiente a través de las excretas de los animales domésticos, nuevas líneas de investigación han aparecido con miras a determinar las exigencias nutricionales y a determinar los factores que afectan la excreción. La absorción es tal vez uno de los factores que más influencia la cinética metabólica del P, y esta a su vez, es influenciada por varios factores para mantener estable su homeostasis. Existen diferencias entre los animales rumiantes y monogástricos en relación a la forma como el P es metabolizado en el organismo, sin embargo los sistemas de absorción intestinal poseen características semejantes. El descubrimiento de varios sistemas de transporte del P en las membranas celulares del epitelio intestinal, y de varias sustancias que lo afectan, ha contribuido a esclarecer el metabolismo de este mineral y de porqué está completamente acoplado al metabolismo del Ca. Por lo tanto, resulta interesante considerar estas características para aumentar la utilización del P en las diferentes etapas fisiológicas de los animales domésticos, evitando su excesiva excreción, cuando la capacidad de absorción esta disminuida, o incrementando el P dietético, cuando su absorción se encuentra aumenta en las etapas de reposición mineral. PATIÑO, P., RENE BARRAGAN, H., WILSON VERGARA, OSCAR MAZA, LIBARDO Fósforo metabolismo nutrición 4 2 Núm. 2 , Año 2012 : RECIA 4(2):JULIO-DICIEMBRE Artículo de revista Universidad de Sucre Revista Colombiana de Ciencia Animal - RECIA application/pdf Publication ADBEL-HAFEEZ, H.; MAÑAS-ALMENDROS; ROSS, R.; CARE, A. 1982. Effects of dietary phosphaorus and calcium on the intestinal absorption of Ca in sheep. Brithish Journal of Nutrition, 47:69-77. BROMMAGE, R.; BAXTER, D.; GIERKE, L. 1990. Vitamin D-independent intestinal calcium and phosphorus absorption during reproduction. American Journal Physiology Gastrointestinal Liver Physiology, 259: G631-G638. BREVES, G.; SCHRÖDER, B. 1991. Comparatives aspects of gastrointestinal phosphorus metabolism. Nutrition research reviews, 4: 125-140. BREVES, G.; ROSS, R.; HÖLER, H. 1985. Dietary phosphorus depletion in sheep: effects on plasma inorganic phosphorus, calcium, 1,25-(OH)2-Vit.D3 and alkaline phosphatase and on gastrointestinal P and Ca balances. Journal of Agriculture Science, 4:125-140. BRAVO, D.; SAUVANT. D.; BOGAERT, C.; MESCHY, F. 2003. Quantitative aspects of phosphorus absortion in ruminants. Reproduction nutrition development, 43: 271-248. BRAITHWAITE, G. 1975. Studies on the absortion and retention of calcium and phosphorus by young and mature Ca-deficient sheep. British Journal of Nutrition, 34:311-324. X.; BERGSTRALH, E. 2007. Evidence for a signal axis by which intestinal phosphate rapidly modulate renal phosphate reabsorption. PNAS, 104: 11085 – 11090. ARIMA, K.; HINES, E.; KIELA, P.; DREES, J.; COLLINS, J.; GUISHAN, F. 2002. Glucocorticoid regulation and glycosylation of mouse intestinal type IIb Na-Pi cotransporter during ontogeny. American Journal Physiology Gastrointestinal Liver Physiology, 283: G426-G434. BERNDT, T.; THOMAS, L.; GRAIG, T.; SOMMER, S.; LI, AFRC. 1991. A repraisal of the calcium and phosphorus requierements of sheep and cattle. Agricultural and Food Research Council. Nutritions Abstrac Review: series B, 61:573-612 (Report, 6). ARC. 1980. The Nutrient requirements of farm livestock. Agricultural Research Council, London, 351p. https://creativecommons.org/licenses/by-nc-sa/4.0/ Español metabolism phosphorus Journal article P as an essential nutrient has been researched for many years, but now, due to the polluting effect of this mineral, that is released into the environment through the manure of domestic animals, new research lines has come up with the aim to identify nutritional requirements and determine the factors affecting excretion. Absorption is perhaps one of the factors that influence the metabolic kinetics of P, and this in turn, is influenced by several factors to keep its homeostasis. There are differences between ruminant and monogastric animals in relation to the way P is metabolized in the body, however intestinal absorption systems have similar characteristics. The discovery of several P transport systems in the intestinal epithelial cell membranes, and several substances that affect it, has helped to clarify the metabolism of this mineral and why is completely linked to Ca metabolism. Therefore, is interesting to consider these features to increase the use of P in different physiological stages of domestic animals, avoiding its excessive excretion, when the absorption capacity is diminished, or increasing dietary P, when the absorption is increased in stages mineral replacement. nutrition Recent advances on the regulatory mechanisms of phosphorus uptake 2027-4297 497 2012-07-05 473 https://revistas.unisucre.edu.co/index.php/recia/article/download/230/271 2012-07-05T00:00:00Z 2012-07-05T00:00:00Z https://doi.org/10.24188/recia.v4.n2.2012.230 10.24188/recia.v4.n2.2012.230 |
institution |
UNIVERSIDAD DE SUCRE |
thumbnail |
https://nuevo.metarevistas.org/UNIVERSIDADDESUCRE/logo.png |
country_str |
Colombia |
collection |
Revista Colombiana de Ciencia Animal - RECIA |
title |
Últimos avances sobre los mecanismos reguladores de la absorción de fósforo |
spellingShingle |
Últimos avances sobre los mecanismos reguladores de la absorción de fósforo PATIÑO, P., RENE BARRAGAN, H., WILSON VERGARA, OSCAR MAZA, LIBARDO Fósforo metabolismo nutrición metabolism phosphorus nutrition |
title_short |
Últimos avances sobre los mecanismos reguladores de la absorción de fósforo |
title_full |
Últimos avances sobre los mecanismos reguladores de la absorción de fósforo |
title_fullStr |
Últimos avances sobre los mecanismos reguladores de la absorción de fósforo |
title_full_unstemmed |
Últimos avances sobre los mecanismos reguladores de la absorción de fósforo |
title_sort |
últimos avances sobre los mecanismos reguladores de la absorción de fósforo |
title_eng |
Recent advances on the regulatory mechanisms of phosphorus uptake |
description |
Como nutriente esencial el P ha sido investigado durante muchos años, pero en la actualidad, debido al efecto contaminante de este mineral, liberado en el ambiente a través de las excretas de los animales domésticos, nuevas líneas de investigación han aparecido con miras a determinar las exigencias nutricionales y a determinar los factores que afectan la excreción. La absorción es tal vez uno de los factores que más influencia la cinética metabólica del P, y esta a su vez, es influenciada por varios factores para mantener estable su homeostasis. Existen diferencias entre los animales rumiantes y monogástricos en relación a la forma como el P es metabolizado en el organismo, sin embargo los sistemas de absorción intestinal poseen características semejantes. El descubrimiento de varios sistemas de transporte del P en las membranas celulares del epitelio intestinal, y de varias sustancias que lo afectan, ha contribuido a esclarecer el metabolismo de este mineral y de porqué está completamente acoplado al metabolismo del Ca. Por lo tanto, resulta interesante considerar estas características para aumentar la utilización del P en las diferentes etapas fisiológicas de los animales domésticos, evitando su excesiva excreción, cuando la capacidad de absorción esta disminuida, o incrementando el P dietético, cuando su absorción se encuentra aumenta en las etapas de reposición mineral.
|
description_eng |
P as an essential nutrient has been researched for many years, but now, due to the polluting effect of this mineral, that is released into the environment through the manure of domestic animals, new research lines has come up with the aim to identify nutritional requirements and determine the factors affecting excretion. Absorption is perhaps one of the factors that influence the metabolic kinetics of P, and this in turn, is influenced by several factors to keep its homeostasis. There are differences between ruminant and monogastric animals in relation to the way P is metabolized in the body, however intestinal absorption systems have similar characteristics. The discovery of several P transport systems in the intestinal epithelial cell membranes, and several substances that affect it, has helped to clarify the metabolism of this mineral and why is completely linked to Ca metabolism. Therefore, is interesting to consider these features to increase the use of P in different physiological stages of domestic animals, avoiding its excessive excretion, when the absorption capacity is diminished, or increasing dietary P, when the absorption is increased in stages mineral replacement.
|
author |
PATIÑO, P., RENE BARRAGAN, H., WILSON VERGARA, OSCAR MAZA, LIBARDO |
author_facet |
PATIÑO, P., RENE BARRAGAN, H., WILSON VERGARA, OSCAR MAZA, LIBARDO |
topicspa_str_mv |
Fósforo metabolismo nutrición |
topic |
Fósforo metabolismo nutrición metabolism phosphorus nutrition |
topic_facet |
Fósforo metabolismo nutrición metabolism phosphorus nutrition |
citationvolume |
4 |
citationissue |
2 |
citationedition |
Núm. 2 , Año 2012 : RECIA 4(2):JULIO-DICIEMBRE |
publisher |
Universidad de Sucre |
ispartofjournal |
Revista Colombiana de Ciencia Animal - RECIA |
source |
https://revistas.unisucre.edu.co/index.php/recia/article/view/230 |
language |
Español |
format |
Article |
rights |
http://purl.org/coar/access_right/c_abf2 info:eu-repo/semantics/openAccess https://creativecommons.org/licenses/by-nc-sa/4.0/ |
references |
MCDOWELL, L. 1997. Minerals for grazing ruminant in tropical regions. Florida: University of Florida, 81p. MEJIA-HARO, I.; BRINK, D.; FAJARDO-PEÑA, J.; ORTIZ-DE LA ROSA, B. 2001. Efecto de diferentes proporciones de Ca:P en dietas de ovinos en la absorción de fósforo. Agrociencia, 35: 497-502. SCHRÖDER, B.; KAUNE, R.; HARMEYER, J. 1991. Effects of calcitrol on stimulation of ion transport in pig jejuna mucosa. J Physol, 433: 451-465. SALVIANO, L. 1996. Efeito de diferentes proporções de cálcio e fósforo sobre as perdas endógenas e absorção real de fósforo em ovinos. Tese (Doutorado) Centro de Energia Nuclear na Agricultura. Universidade de São Paulo. Piracicaba, p 83. RAZZAQUE, M.; LANSKE, B. 2007. The emerging role of the fibroblast growth factor-23-klotho axis in renal regulation of phosphorus homeostasis. Journal of Endocrinology, 194:1-10. PFEFFER, E.; BEED, D.; VALK, H. 2005. Phosphorus metabolism in ruminants and requirements of cattle. IN: Pfeffer, E.; Hristov, A. Nitrogen and phosphorus nutrition of cattle. Reducing the environmental impact of cattle operations. London: CABI, 195-231. NRC. 2007. Nutrient requirement of small ruminants: Sheep, Goats, Cervids, and new world camelids. National Research Council, National Academic Press, Washington, 362p. MURER, H.; FORSTER, I.; BIBER, J. 2004. The sodium phosphate cotransporter family SLC34. Pflugers Archives, 447: 763-767. MONTGOMERY, J.; BLANTON, J.; HORST, R.; GALYEAN, M.; MARROW, K.; WESTER, D.; MILLER, M. 2004. Effects of biological type of beef steer on vitamin D, calcium and phosphorus status. Journal of Animal Science, 82: 2043- 2049. MARKS, J.; SRAI, S.; BIBER, J.; MURER, H.; UNWIN, R.; DEBNAM, E. 2006. Intestinal phosphate absorption and the effect of vitamin D: a comparison of rats with mice. Experimental physiology, 91: 531-537. SCHRÖDER, B.; BREVES, G. 1996. Mechanism of phosphate uptake into brush-border membrane vesicles from goat jejunum. Journal of Comparative Physiology B, 166: 230-246. LOUVANDINI, H.; VITTI, M. 2007. Cinética de fósforo com modelos matemáticos em ovinos adultos. Pesquisa Agropecuária Brasileira, 42: 1467- 1472. KNOWLTO, K.; HERBEIN, J.; MEISTER-WEISBARTH, M.; WARK, W. 2011. Nitrogen and phosphorus partitioning in lactating Holstein cows fed different sources of dietary protein and phosphorus. Journal of Dairy Science, 84: 1210- 1217. KINKAID, R.; RODEHUTSCO, R. 2005. Phosphorus metabolism in the rumen. En: Pfeffer P, Hristov A. Nitrogen and phosphorus nutrition of cattle. Reducing the environmental impact of cattle operations. London: CABI: 187-193. HUBER, K,; WALTER, C.; SCHRÖDER, B.; BIBER, J.; MURER, H.; BREVES, G. 2000. Epithelial phosphate transporter in small ruminat. Ann NY Acad Sci, 915: 95-97. HILFIKER, H.; HATTEENHAUER, O.; TRAEBERT, M.; FOSTER, I.; MUERER, H.; BIBER, J. 1998. Characterization of a murine type II sodium-phosphate cotransporter expressed in mammalian small instestine. Proc Nalt Acad Sci, 95: 14564-14569. GIORGIEVSKII, V.; 1982. The physiological role of macroelement. En: Giorgievskii, V.I.; Annenkov, B.N.; Samkhin, V.I. (Eds.). Mineral nutrition of animal. London: Butterworths, 91-70. FIELD, A.; SUTTLE, N.; NISBED, D. 1975. Effect of diets low in calcium and phosphorus on the development of growing lambs. Journal Agricultural Science, 85: 435-442. ETO, N.; TOMITA, M.; HAYASHI, M. 2006. NaPi-mediated tnascellular permeation is the dominant inorganic phosphate absorption in rats. Drug Metabolism Phamacokinetic, 21: 217-221. SCHRÖDER, B.; FAILING, K.; PFEFFER, E.; BREVES, G. 1995. Mechanism of intestinal phosphate transport in small ruminants. British Journal of Nutrition, 74:635-648. SHANKLIN, N. 2001. Effect of form and amount of phosphorus and phytase supplementation on phosphorus utilization by ruminants. Faculty of the Virginia Polytechnic Institute and State University. Virginia, US. CHURC. 1994. El rumiante, fisiología digestiva y nutrición. Barcelona: Acribia, 641p. YANO, F.; YANO, H.; BREVES, G. 1991. Calcium and phosphorus metabolism in ruminants. In: INTERNATIONAL SYMPOSIUM ON RUMINANT PHYSIOLOGY. New York: Academic Press, 277- 295. STAUBER, A.; RANDANOVIC, T.; STANGE, G.; MURER, H.; WAGNER, C.; BIBER, J. 2005. Regulation of intestinal phosphate transport II. Metabolic acidosis stimulates Na+-dependent phosphate absorption and expression of the Na+-Pi cotransporter Na Pi-II in small intestine. American Journal Physiology Gastrointestinal Liver Physiology, 288: G501-G506. XU, H.; BAI, L.; COLLINS, J.; GUISHAN, F.; 2002. Age dependent regulation of rat intestinal type IIb sodium-phosphate cotransporter by 1,25-(OH)2 vitamin D3. American Journal Physiology Cell Physiology, 282: 487- 493. WILLIAMS, K.; DE LUCA, H. 2007. Characterization of intestinal phosphate absorption using a model in vivo method. American Journal Physiology Endocrinology and Metabolism, 292: E1917- E1921. WILCOCK, R. 2008. Land-Water Interactions: Impacto in the aquatic enviroment. En: McDowell R.W, Ed. Enviromental Impact of Pasture-Based Farming. UK: CABI, 297p. VITTI, D.; BUENO, I.; DA SILVA FILHO, J.; SOARES, T.; PATIÑO, R.; NASSER, E.; DE ALMEIDA, A.; SALLAM, S.; NASCIMENTO FILHO, V. 2008. The effect of dietary intake of phosphorus on true absorption and excretion of phosphorus in brazilian Santa Inês Sheep. UK: Procedings. Of the British Society of the Animal Science. Scarborougt, p185. VITTI, D.; KEBREAD, E.; ABDALLA, A.; DE CARVALHO, F.; DE RESENDE, K.; CROMPTON, L.; FRANCE, J. 2000. A kinetic models of phosphorus metabolism in growing goats. Journal of Animal Science, 78:2106-2716. VITTI, D. 2000. Modelos biomatemáticos do metabolismo de fósforo em ovinos e caprinos. Centro de Energia Nuclear na Agricultura – Universidade de São Paulo, Piracicaba. UNDERWOOD, E.; SUTTLE, N. 2003. Los minerales en la nutrición del ganado. Zaragoza, 637p. TERNOUTH, J.; SEVILLA, C. 1990. Dietary calcium and phosphorus repletion of lambs. Australian Journal of Agricultural Research, 41: 413-420. CSIRO. 2007. Nutrient requeriments of domesticated ruminants. Collingwood, 270p. CALL, J.; BUTCHER, J.; BLAKE, J.; SMART, R.; SHUPE, J. 1978. Phosphorus influence of growth and reproduction in beef cattle. Journal of Animal Science, 47: 216-225. BUSCHE, R.; SCHRÖDER, R.; HUBER, K.; SALLMANN, H. 2007. The effect of dietary phosphorus deficiency on surface pH and membrane composition of the mucosa epithelium in caprine jejunum. Journal of Comparative Physiology B, 177: 135-142. ADBEL-HAFEEZ, H.; MAÑAS-ALMENDROS; ROSS, R.; CARE, A. 1982. Effects of dietary phosphaorus and calcium on the intestinal absorption of Ca in sheep. Brithish Journal of Nutrition, 47:69-77. BROMMAGE, R.; BAXTER, D.; GIERKE, L. 1990. Vitamin D-independent intestinal calcium and phosphorus absorption during reproduction. American Journal Physiology Gastrointestinal Liver Physiology, 259: G631-G638. BREVES, G.; SCHRÖDER, B. 1991. Comparatives aspects of gastrointestinal phosphorus metabolism. Nutrition research reviews, 4: 125-140. BREVES, G.; ROSS, R.; HÖLER, H. 1985. Dietary phosphorus depletion in sheep: effects on plasma inorganic phosphorus, calcium, 1,25-(OH)2-Vit.D3 and alkaline phosphatase and on gastrointestinal P and Ca balances. Journal of Agriculture Science, 4:125-140. BRAVO, D.; SAUVANT. D.; BOGAERT, C.; MESCHY, F. 2003. Quantitative aspects of phosphorus absortion in ruminants. Reproduction nutrition development, 43: 271-248. BRAITHWAITE, G. 1975. Studies on the absortion and retention of calcium and phosphorus by young and mature Ca-deficient sheep. British Journal of Nutrition, 34:311-324. X.; BERGSTRALH, E. 2007. Evidence for a signal axis by which intestinal phosphate rapidly modulate renal phosphate reabsorption. PNAS, 104: 11085 – 11090. ARIMA, K.; HINES, E.; KIELA, P.; DREES, J.; COLLINS, J.; GUISHAN, F. 2002. Glucocorticoid regulation and glycosylation of mouse intestinal type IIb Na-Pi cotransporter during ontogeny. American Journal Physiology Gastrointestinal Liver Physiology, 283: G426-G434. BERNDT, T.; THOMAS, L.; GRAIG, T.; SOMMER, S.; LI, AFRC. 1991. A repraisal of the calcium and phosphorus requierements of sheep and cattle. Agricultural and Food Research Council. Nutritions Abstrac Review: series B, 61:573-612 (Report, 6). ARC. 1980. The Nutrient requirements of farm livestock. Agricultural Research Council, London, 351p. |
type_driver |
info:eu-repo/semantics/article |
type_coar |
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https://doi.org/10.24188/recia.v4.n2.2012.230 |
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2027-4297 |
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10.24188/recia.v4.n2.2012.230 |
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