1. bookTom 13 (2013): Zeszyt 1 (January 2013)
Informacje o czasopiśmie
License
Format
Czasopismo
eISSN
2300-8733
ISSN
1642-3402
Pierwsze wydanie
25 Nov 2011
Częstotliwość wydawania
4 razy w roku
Języki
Angielski
Otwarty dostęp

Glutamine as a Feed Supplement for Piglets: a Review / Glutamina jako dodatek do paszy dla prosiąt: przegląd

Data publikacji: 29 Jan 2013
Tom & Zeszyt: Tom 13 (2013) - Zeszyt 1 (January 2013)
Zakres stron: 5 - 152
Informacje o czasopiśmie
License
Format
Czasopismo
eISSN
2300-8733
ISSN
1642-3402
Pierwsze wydanie
25 Nov 2011
Częstotliwość wydawania
4 razy w roku
Języki
Angielski

Anadón A. (2006). The EU ban of antibiotics as feed additives: alternatives and consumer safety. J. Vet. Pharm. Therap., 29: 41-44.Search in Google Scholar

Bailey M., Haverson K., Inman C., Harris C., Jones P., Corfield G., Miller B., Stokes C. (2005). The development of the mucosal immune system pre- and post-weaning: balancing regulatory and effector function. Proc. Nutr. Soc., 64: 451-457.Search in Google Scholar

Ban K., Kozar R.A. (2010). Glutamine protects against apoptosis via downregulation of Sp3 in intestinal epithelial cells. Am. J. Physiol. Gastrointest. Liver Physiol., 299: G1344-G1353.Search in Google Scholar

Boyd R.D., Kensinger R.S., Harrell R.J., Bauman D.E. (1995). Nutrient uptake and endocrine regulation of milk synthesis by mammary tissue of lactating sows. J. Anim. Sci., 73, (Suppl. 2): 36-56.Search in Google Scholar

Brasse - Lagnel C.G., Lavoinne A.M., Husson A.S. (2010). Amino acid regulation of mammalian gene expression in the intestine. Biochimie, 92: 729-735.Search in Google Scholar

Burrin D., Stoll B., Jiang R., Chang X., Hartmann B., Holst J.J., Greely G.H., Reeds P.J. (2000). Minimal enteral nutrient requirements for intestinal growth in neonatal piglets: how much is enough? Am. J. Clin. Nutr., 71: 1603-1610.Search in Google Scholar

Burrin D., Stoll B. (2003). Enhancing intestinal function to improve growth and efficiency. In: Ball R.O. (Ed.) Proc. 9th Intern. Symp. on Digestive Physiology in Pigs. Banff, AB, Canada, pp. 121-138.Search in Google Scholar

Burrin D.G., Stoll B. (2009). Metabolic fate and function of dietary glutamate in the gut. Am. J. Clin. Nutr., 90 (Suppl.): 1S-7S.Search in Google Scholar

Chang W.K., Yang K.D., Chuang H., Jan J.T., Shaio M.F. (2002). Glutamine protects activated human Tcells from apoptosis by up-regulating glutathione and Bcl-2 levels. Clin. Immun., 104: 151-160.Search in Google Scholar

Curi R., Lagranha C.J., Doi S.Q., Sellitti D.F., Procopio J., Pithon - Curi T.C., Cor- less M., Newsholme P. (2005). Molecular mechanisms of glutamine action. J. Cell Physiol., 204: 392-401.Search in Google Scholar

Dillon E.L., Knabe D.A., Wu G. (1999). Lactate inhibits citrulline and arginine synthesis from proline in pig enterocytes. Am. J. Physiol., 276: G1079-G1086.Search in Google Scholar

Domeneghini C., Di Giancamillo A., Savoini G., Paratte R., Bontempo V., Dell ’ Orto V. (2004). Structural patterns of swine ileal mucosa following L-glutamine and nucleotide administration during the weaning period. An histochemical and histometrical study. Histol. Histopathol., 19: 49-58.Search in Google Scholar

Domeneghini C., Di Giancamillo A., Bosi G., Arrighi S. (2006). Can nutraceuticals affect the structure of intestinal mucosa? Qualitative and quantitative microanatomy in L-glutamine diet-supplemented weaning piglets. Vet. Res Com., 30: 331-342.Search in Google Scholar

Eagle H. (1955). Nutritional needs of mammalian cells in tissue culture. Science (Washington DC), 122: 501-504.Search in Google Scholar

Easter R.A., Katz R., Baker D.H. (1974). Arginine: a dispensable amino acid for postpubertal growth and pregnancy of swine. J. Anim. Sci., 39: 1123-1128.Search in Google Scholar

Ehrensvard G., Fischer A., Strjenholm E. (1949). Protein metabolism of tissue cells in vitro. The chemical nature of some obligate factors of tissue cell nutrition. Acta Phys. Scand., 18: 218-230.Search in Google Scholar

Ewtushick A.L., Bertolo R.F.P., Ball R.O. (2000). Intestinal development of early-weaned piglets receiving diets supplemented with selected amino acids or polyamines. Can. J. Anim. Sci., 80: 653-662.Search in Google Scholar

Hampson D.J. (1986). Alteration in piglet small intestinal structure at weaning. Res. Vet. Sci., 40: 32-40.Search in Google Scholar

Haynes T.E., Li P., Li X., Shimotori K., Sato H., Flynn N.E., Wang J., Knabe D.A., Wu G. (2009). L-glutamine or L-alanyl-L-glutamine prevents oxidant- or endotoxin-induced death of neonatal enterocytes. Amino Acids, 37: 131-142.Search in Google Scholar

Hsu C.B., Huang H.J., Wang C.H., Yen H.T., Yu B. (2010). The effect of glutamine supplement on small intestinal morphology and xylose absorptive ability of weaned piglets. African J. Biotechnol., 9: 7003-7008.Search in Google Scholar

Johnson I.R., Ball R.O., Baracos V.E., Madsen K.L., Goruk S., Field C.J. (2003). Influence of glutamine on immune development in newly weaned piglets. Adv. Pork Prod., 14, Abstr. 12.Search in Google Scholar

Johnson I.R., Ball R.O., Baracos V.E., Field C.J. (2006). Glutamine supplementation influences immune development in the newly weaned piglet. Develop. Compar. Immunol., 30: 1191-1202.Search in Google Scholar

Jones M.E. (1985). Conversion of glutamate to ornithine and proline: pyrroline-5-carboxylate, apossible modulator of arginine requirements. J. Nutr., 115: 509-515.Search in Google Scholar

Kim S.W., Mc Oherson R.L., Wu G. (2004). Dietary arginine supplementation enhances the growth of milk-fed young pigs. J. Nutr., 134: 625-630.Search in Google Scholar

Kitt S.J., Miller P.S., Fischer R.L. (2004). Supplementation on sow and litter performance, subsequent weanling pig performance and intestinal development after an immune challenge. Nebraska Swine Report, pp. 14-17.Search in Google Scholar

Labow B.I., Souba W.W. (2000). Glutamine. World J. Surg., 24: 1503-1513.Search in Google Scholar

Lallés J-P., Boudry G., Favier C., Le Floc ’h N., Luron I., Montagne L., Oswald I.P., Pie S., Piel C., Séve B. (2004). Gut function and dysfunction in young pigs : physiology. Anim. Res., 53: 301-316.Search in Google Scholar

Le Dividich J., Séve B. (2000). Effects of underfeeding during the weaning period on growth, metabolism, and hormonal adjustments in the piglet. Dom. Anim. Endocrinol., 19: 63-74.Search in Google Scholar

Matés J.M., Pérez- Gomez C., Nunezde Castro I., Asenjo M., Marquez J. (2002). Glutamine and its relationship with intracellular redox status, oxidative stress and cell proliferation/ death. Int. J. Biochem. Cell Biol., 34: 439-458.Search in Google Scholar

Mertz E.T., Beeson W.M., Jackson H.D. (1952). Classification of essential amino acids for weanling pigs. Arch. Biochem Biophys., 38: 121-128.Search in Google Scholar

Nabuurs M.J., Hoogendoorn A., van Zijderveld -van Bemmel A. (1996). Effect of supplementary feeding during the suckling period on net absorption from the small intestine of weaned pigs. Res. Vet. Sci., 61: 72-77 Newsholme P. (2001). Why is L-glutamine metabolism important to cells of immune system in health, postinjury, surgery or infection? J. Nutr., 131: 2515-2522.Search in Google Scholar

Newsholme P., Lima M.M.R., Procopio J., Pithon - Curi T.C., Doi S.Q., Bazotte R.B., Curi R. (2003). Glutamine and glutamate as vital metabolites. Brazil. J. Med. Biol. Res., 36: 153-163.Search in Google Scholar

O’Quinn P.R., Knabe D.A., Wu G. (2002). Arginine catabolism in lactating porcine mammary tissue. J. Anim. Sci., 80: 467-474.Search in Google Scholar

Pluske J.R., Hampson D.J., William I.H. (1997). Factors influencing the structure and function of the small intestine in the weaned pig: areview. Livest. Prod. Sci., 51: 215-236.Search in Google Scholar

Reeds P.J., Burrin D.G., Stoll B., Jahoor F., Wykes L., Henry J., Frazer M.E. (1997). Enteral glutamate is the preferential source for mucosal glutathione synthesis in fed piglets. Am. J. Physiol., 273: E408-E415.Search in Google Scholar

Ropeleski M.J., Riehm J., Baer K.A., Musch M.W., Chang E.B. (2005). Antiapoptotic effects of L-glutamine-mediated transcriptional modulation of the heat shock protein 72 during heat shock. Gastroenterology, 129: 170-184.Search in Google Scholar

Séve B., Reeds P.J., Fuller M.F., Cadenhead A., Hay S.M. (1986). Protein synthesis and retention in some tissues of the young pig as influenced by dietary protein intake after early-weaning. Possible connection to the energy metabolism. Reprod. Nutr. Dev., 26: 849-861.Search in Google Scholar

Thacker P.A. (1999). Nutritional requirements of early weaned pigs: a review. Pig News Info, 20:13 N-24 N Trottier N.L., Shipley C.F., Easter R.A. (1997). Plasma amino acid uptake by the mammary gland of the lactating sow. J.Anim. Sci., 75: 1266-1278.10.2527/1997.7551266x9159273Search in Google Scholar

Wang J., Chen L., Li P., Li X., Zhou H., Wang F., Li D., Yin Y., Wu G. (2008). Gene expression is altered in piglet small intestine by weaning and dietary glutamine supplementation. J. Nutr., 138: 1025-1032.Search in Google Scholar

Windmueller H.G., Spaeth A.G. (1975). Intestinal metabolism of glutamine and glutamate from the lumen as compared to glutamine from blood. Arch. Biochem. Biophys., 171: 662-672.Search in Google Scholar

Wu G., Borbolla A.G., Knabe D.A. (1994). The uptake of glutamine and release of arginine, citrulline and proline by the small intestine of developing pigs. J. Nutr., 124: 2437-2444.Search in Google Scholar

Wu G., Knabe D.A. (1994). Free and protein-bound amino acids in sow’s colostrum and milk. J. Nutr., 124: 415-424.Search in Google Scholar

Wu G., Knabe D.A. (1995). Arginine synthesis in enterocytes of neonatal pigs. Am. J. Physiol., 269: R621-R629.Search in Google Scholar

Wu G., Knabe D.A., Yan W., Flynn N.E. (1995). Glutamine and glucose metabolism in enterocytes of the neonatal pig. Am. J. Physiol., 268: R334-R342.Search in Google Scholar

Wu G., Meier S.A., Knabe D.A. (1996). Dietary glutamine supplementation prevents jejunal atrophy in weaned pigs. J. Nutr., 126: 2578-2584.Search in Google Scholar

Wu G., Fang Y.Z., Yang S., Lupton J.R., Turner N.D. (2004). Glutathione metabolism and its implications for health. J. Nutr., 134: 489-492.Search in Google Scholar

Wu G., Bazer F.W., Davis T.A., Jaeger L.A., Johnson G.A., Kim S.W., Knabe D.A., Meininger C.J., Spencer T.E., Yin Y-L. (2007). Important roles for the arginine family of amino acids in swine nutrition and production. Livest. Sci., 112: 8-22.Search in Google Scholar

Zhao Y.R., Wang H.Q., He J.H., Fan Z. Y. (2009). Effects of glutamine on intestinal microflora and mucous membrane of weaning piglets. J. Hunan Agric. Univ., 35: 158-161.Search in Google Scholar

Zhong X., Zhang X.H., Li X.M., Zhou Y.M., Li W., Huang X.X., Zhang L.L., Wang T. (2011). Intestinal growth and morphology is associated with the increase in heat shock protein 70 expression in weaning piglets through supplementation with glutamine. J. Anim., Sci., 89: 3634-3642.Search in Google Scholar

Zou X.T., Zheng G.H., Fang X.J., Jiang J.F. (2006). Effects of glutamine on growth performance of weanling piglets. Czech. J. Anim. Sci., 51: 444-448. Search in Google Scholar

Polecane artykuły z Trend MD

Zaplanuj zdalną konferencję ze Sciendo