Free Access
Issue
Anim. Res.
Volume 51, Number 6, November-December 2002
Page(s) 501 - 515
DOI https://doi.org/10.1051/animres:2002038

References

  1. Baranyiova E., Influence of deutectomy, food intake and fasting on the digestive tract dimensions in chickens after hatching, Acta Vet. (Brno) 41 (1972) 373-384.
  2. Baranyiova E., Hulman J., Morphological changes in the intestinal wall in fed and fasted chickens in the first week after hatching, Acta Vet. (Brno) 45 (1976) 151-158.
  3. Bartov I., Plavinik I., Moderate excess of dietary protein increases breast meat yield of broiler, Poult. Sci. 77 (1998) 680-686.
  4. Bradford M., A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding, Anal. Biochem. 72 (1976) 248-254.
  5. Bunchasak C., Santoso U., Tanaka K., Ohtani S., Collado C.M., The effect of supplementing methionine plus cystine to a low-protein diet on the growth performance and fat accumulation of growing broiler chicks, Asian Australas. J. Anim. Sci. 10 (1997) 185-191.
  6. Caperna T.J., Rosebrough R.W., McMurtry J.P., Vasilatos-Younken R., Influence of dietary protein on insulin-like growth factor binding proteins in the chicken, Comp. Biochem. Physiol. B 124 (1999) 417-421.
  7. Carew L.B., Evarts K.G., Alster F.A., Growth, feed intake, and plasma thyroid hormone levels in chicks fed dietary excesses of essential amino acids, Poult. Sci. 77 (1998) 295-298.
  8. Dahlqvist D., Method for assay of intestinal disaccharidases, Anal. Biochem. 7 (1964) 18-25.
  9. EFG Software, EFG broiler growth model, EFG Software, Pietermaritzburg, South Africa, 1998.
  10. European Table of Energy Values For Poultry Feedstuffs, The subcommittee of Energy working group No. 2, Nutrition of the European Federation of Branches of the Worlds Poultry Science Association, The Netherlands, 1st ed., 1986, pp. 12-21.
  11. Gonzales E., Buyse J., Loddi M.M., Takita T.S., Buyse N., Decuypere E., Performance, incidence of metabolic disturbances and endocrine variables of food-restricted male broiler chickens, Brit. Poult. Sci. 39 (1998) 671-678.
  12. Gous R.M., Morris T.R., Evaluation of a diet dilution technique for measuring the response of broiler chickens to increasing concentrations of lysine, Brit. Poult. Sci. 26 (1985) 147-161.
  13. Govaerts T., Room G., Buyse J., Lippens M., Decuypere E., de Groote G., Early and temporary quantitative food restriction of broiler chickens. 2. Effects on allometric growth and hormone secretion, Brit. Poult. Sci. 41 (2000) 355-362.
  14. Harper A.E., Benevenga N.J, Wohlheuter R.M., Effect of ingesting disproportionate amounts of amino acids, Physiol. Rev. 50 (1970) 428-558.
  15. Holdsworth E.S., The effect of vitamin D on enzyme activities in the mucosal cells of the chick small intestine, J. Membr. Biol. 3 (1970) 43-53.
  16. Holt P.R., Tierney A.R., Kotler D.P., Delayed enzyme expression: a defect of aging rat gut, Gastroenterology 89 (1985) 1026-1034.
  17. Iji P.A., Saki A., Tivey D.R., Body and intestinal growth of broiler chicks on a commercial starter diet. 1. Intestinal weight and mucosal development, Brit. Poult. Sci. 42 (2001) 505-513.
  18. Iji P.A., Saki A., Tivey D.R., Body and intestinal growth of broiler chicks on a commercial starter diet. 2. Development and characteristics of intestinal enzymes, Brit. Poult. Sci. 42 (2001) 514-522.
  19. Khantaprab S., Nikki T., Nobukuni K., Effect of restricted feed intake on the growth of muscle and the fat deposition in broiler chickens, Jap. Poult. Sci. 34 (1997) 363-372.
  20. Kita K., Tomas F.M., Owens P.C., Knowles S.E., Forebes B.E., Upton Z., Hughes R., Ballard F.J., Influence of nutrition on hepatic IGF-I mRNA levels and plasma concentrations of IGF-I and IGF-II in meat-type chickens, J. Endocrinol. 149 (1996) 181-190.
  21. Kita K., Okumura J.I., Dietary protein levels alter plasma insulin-like growth factor-I concentration of chicks, Jap. Poult. Sci. 36 (1999) 25-30.
  22. Leeson S., Zubair A.K., Nutrition of the broiler chickens around the period of compensatory growth, Poult. Sci. 76 (1997) 992-999.
  23. Lewis D., The concept of agent and target in amino acid interactions, Proc. Nutr. Soc. 24 (1965) 196-202.
  24. Miller G.L., Blum R., Glennon W.E., Burton A.L., Measurement of carboxymethylcellulase activity, Anal. Biochem. 2 (1960) 127-132.
  25. Minitab Inc., Minitab Release 12.1. Minitab Inc., State College, PA 16801-3008, USA, 1998.
  26. Morris T.R., Al-Azzawi K., Gous R.M., Simpson G.L., Effects of protein concentration on responses to dietary lysine by chicks, Brit. Poult. Sci. 28 (1987) 185-195.
  27. Morris T.R., Gous R.M., Fisher C., An analysis of the hypothesis that amino acid requirements for chicks should be stated as a proportion of dietary protein, Wld Poult. Sci. J. 55 (1999) 8-22.
  28. Moundras C., Rémésy C., Demigné C., Dietary protein paradox: decrease of amino acid availability induced by high protein diets, Am. J. Physiol. 264 (1993) G1057-G1065.
  29. National Research Council, Nutrient requirements of poultry, National Academy Press, Washington, DC, 1994.
  30. Musharaf N.A., Latshaw J.D., Heat increment as affected by protein and amino acid nutrition, Wld Poult. Sci. J. 55 (1999) 33-240.
  31. Picard M., Siegel P.B., Leterrier C., Geraert P.A., Diluted starter diet, growth performance, and digestive tract development in fast and slow growing broilers, J. Appl. Poult. Res. 8 (1999) 122-131.
  32. Ramlah A.H., Halim A.S., Siti-Sarah A.R., Effects of early feed restriction on the performance of broilers, Asian Australas. J. Anim. Sci. 9 (1996) 63-67.
  33. Shirazi-Beechey S.P., Smith M.W., Wang Y., James P.S., Postnatal development of lamb intestinal digestive enzymes is not regulated by diet, J. Physiol. 437 (1991) 691-698.
  34. Smith M.W., Mitchell M.A., Peacock M.A., Effects of genetic selection on growth rate and intestinal structure in the domestic fowl (Gallus domesticus), Comp. Biochem. Physiol. 97A (1990) 57-63.
  35. Sonoyama K., Kiriyama S., Niki R., Effect of dietary protein level on intestinal amino peptidase activity and mRNA level in rats, J. Nutr. Biochem. 5 (1994) 291-297.
  36. Syme G., Smith M.W., Intestinal adaptation of protein deficiency, Cell Biol. Int. Rep. 6 (1982) 573-578.
  37. Tan B.J., Ohtani S., Tanaka K.I., Effect of early feed restriction of varied severity on growth performance, carcass composition and lipid metabolism, J. Anim. Sci. 70 (1999) 297-305.
  38. Uni Z., Noy Y., Sklan D., Posthatch changes in morphology and function of the small intestines in heavy- and light-strain chicks, Poult. Sci. 74 (1995) 1622-1629.
  39. Wethli E., Morris T.R., Shresta T.P., The effect of feeding high levels of low-quality proteins to growing chickens, Brit. J. Nutr. 34 (1975) 363-373.
  40. Yamauchi K.E., Iida S., Isshiki Y., Post-hatching developmental changes in the ultrastructure of the duodenal absorptive epithelial cells in 1, 10 and 60-d-old chickens with special reference to mitochondria, Brit. Poult. Sci. 33 (1992) 475-488.
  41. Zaghari M., Nik-Khah A., Shivazad M., Effect of protein levels and genotype on growth and carcass quality of male broiler lines, Iran Agric. Sci. J. 27 (1996) 43-51.
  42. Zubair A.K., Leeson S., Effect of early feed restriction and realimentation on heat production and changes in sizes of digestive organs of male broilers, Poult. Sci. 73 (1994) 529-538.

Abstract

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