Free Access
Reprod. Nutr. Dev.
Volume 43, Number 4, July-August 2003
Page(s) 357 - 370
References of  Reprod. Nutr. Dev. 43 (2003) 357-370
  1. Hocquette JF, Ortigues-Marty I, Pethick D, Herpin P, Fernandez X. Nutritional and hormonal regulation of energy metabolism in skeletal muscles of meat-producing animals. Livest Prod Sci 1998, 56: 115-143.
  2. Ortigues-Marty I, Jurie C, Hocquette JF, Bauchart D, Listrat A, Picard B, Cassar-Malek I, Jailler R, Dozias D, Micol D. Principal component analysis of performances and muscle characteristics of beef steers according to diets and levels of growth. In: Multi-function Grasslands European Grassland Federation, La Rochelle, France, 2002, p 584-585.
  3. Pethick DW, Dunshea FR. The partitioning of fat in farm animals. Proc Nutr Soc Austr 1997, 20: 3-13.
  4. Vestergaard M, Oksbjerg N, Henckel P. Influence of feeding intensity, grazing and finishing feeding on muscle fibre characteristics and meat colour of semitendinosus, longissimus dorsi and supraspinatus muscles of young bulls. Meat Sci 2000, 54: 177-185  [CROSSREF link].
  5. Vestergaard M, Therkildsen M, Henckel P, Jensen LR, Andersen HR, Sejrsen K. Influence of feeding intensity, grazing and finishing feeding on meat and eating quality of young bulls and the relationship between muscle fibre characteristics, fibre fragmentation and meat tenderness. Meat Sci 2000, 54: 187-195  [CROSSREF link].
  6. Majdoub L, Vermorel M, Ortigues-Marty I. Intraruminal propionate supplementation modifies hindlimb energy metabolism without changing the splanchnic release of glucose in growing lambs. Br J Nutr 2003, 89: 39-50.
  7. Seal CJ, Parker DS. Effect of intraruminal propionic acid infusion on metabolism of mesenteric and portal-drained viscera in growing steers fed a forage diet: I. Volatile fatty acids, glucose and lactate. J Anim Sci 1994, 72: 1325-1334  [PUBMED link].
  8. Veenhuizen J, Russell RW, Young JW. Kinetics of metabolism of glucose, propionate and CO2 in steers as affected by injecting phlorizin and feeding propionate. J Nutr 1988, 118: 1366-1375  [PUBMED link].
  9. Casse EA, Rulquin H, Huntington G.B. Effect of mesenteric vein infusion of propionate on splanchnic metabolism in primiparous holstein cows. J Dairy Sci 1994, 77: 3296-3303.
  10. Drackley JK, Overton TR, Douglas GN. Adaptations of glucose and longchain fatty acid metabolism in liver of dairy cows during the periparturient period. J Dairy Sci 2000, 84: E100-E112.
  11. Institut National de la Recherche Agronomique. Tableaux de la valeur nutritive des aliments. In: INRA Publications (Ed), Alimentation des ruminants, Versailles, 1978, p 519-555.
  12. Bergmeyer HU, Bernt E, Schmidt F, Stork H. Determination with Hexokinase and Glucose-6-Phosphate dehydrogenase. In: Bergmeyer HU (Ed), Methods of Enzymatic Analysis, Academic Press, London, 1974, p 1196-1200.
  13. Gutmann I, Wahlefeld AW. L-(+)-Lactate determination with lactate dehydrogenase and NAD. In: Bergmeyer HU (Ed), Methods of Enzymatic Analysis, Academic Press, London, 1974, p 1464-1468.
  14. Tserng KY, Kalhan SC. Estimation of glucose carbon recycling and glucose turnover with [ U-13C] glucose. Am J Physiol 1983, 245: E476-E482  [PUBMED link].
  15. Beylot M, Previs SF, David F, Brunengraber H. Determination of the 13C-labeling pattern of glucose by gas chromatography-mass spectrometry. Anal Biochem 1993, 212: 526-531  [PUBMED link].
  16. Schwenk WF, Berg PJ, Beaufrere B, Miles JM, Haymond MW. Use of t-butyldimethylsilylation in the gas chromatographic/mass spectrometric analysis of physiologic compounds found in plasma using electron-impact ionization. Anal Biochem 1984, 141: 101-109.
  17. Large V, Soloviev M, Brunengraber H, Beylot M. Lactate and pyruvate isotopic enrichments in plasma and tissues of postabsorptive and starved rats. Am J Physiol 1995, 268: E880-E888.
  18. Jouany JP. Volatile fatty acids and alcohol determination in digestive contents, silage juices, bacterial cultures and anaerobic fermentor contents. Sci Aliments 1982, 2: 131-144.
  19. Van Eenaeme C, Bienfait JM, Lambot O, Pondant A. Détermination automatique de l'ammoniaque dans le liquide du rumen par la méthode de Berthelot adaptée à l'autoanalyseur. Ann Med Vet 1969, 7: 419-425.
  20. Stumvoll M, Overkamp D, Gerich JE. A primer on tracer methods for the study of glucose metabolism in man. Diabet Nutr Metab 1995, 8: 298-314.
  21. Katz J. Use of isotopes for the study of glucose metabolism in vivo. Tech Metabol Res 1990, B207: 1-22.
  22. Journet M, Huntington G, Peyraud JL. Le bilan des produits terminaux de la digestion. In: Jarrige R, Ruckebusch Y, Demarquilly C, Farce MH, Journet M (Eds), Nutrition des ruminants domestiques, Ingestion et Digestion, Paris, 1995, p 671-720.
  23. Moloney AP. Growth and carcass composition in sheep offered isoenergetic rations which resulted in different concentrations of ruminal metabolites. Livest Prod Sci 1998, 56: 157-164.
  24. Lopez S, Hovell FD, MacLeod NA. Osmotic pressure, water kinetics and volatile fatty acid absorption in the rumen of sheep sustained by intragastric infusions. Br J Nutr 1994, 71: 153-168  [PUBMED link].
  25. Harmon DL, Britton RA, Prior RL. Influence of diet on glucose turnover and rates of gluco- neogenesis, oxidation, and turnover of D-lactate in the bovine. J Nutr 1983, 113: 1842-1850  [PUBMED link].
  26. Schmidt SP, Keith RK. Effects of diet and energy intake on kinetics of glucose metabolism in steers. J Nutr 1983, 113: 2155-2163.
  27. Overton TR, Drackley JK, Ottemann-Abbamonte CJ, Beaulieu AD, Emert LS, Clark JH. Substrate utilization for hepatic gluconeogenesis is altered by increased glucose demand in ruminants. J Anim Sci 1999, 77: 940-1951.
  28. Bergen WG, Bates DB. Ionophores: their effect on production efficiency and mode of action. J Anim Sci 1984, 58: 1465-1483.
  29. Schelling GT. Monensin mode of action in the rumen. J Anim Sci 1984, 58: 1518-1527.
  30. Sano H, Fujita T, Murakami M, Shiga A. Stimulative effect of epinephrine on glucose production and utilization rates in sheep using a stable isotope. Domest Anim Endocrinol 1996, 13: 445-451.
  31. Sano H, Konno S, Shiga A. Chromium suppl- ementation does not influence glucose metabolism or insulin action in response to cold exposure in mature sheep. J Anim Sci 2000, 78: 2950-2956.
  32. Schulze E, Fuhrmann H, Neitzel ES, Giese WW, Sallmann HP. Glucose entry rate in dairy cattle as determined by stable isotope 13C- labelled glucose at different stages of reproduction. Comp Biochem Physiol B 1991, 100: 167-171  [PUBMED link].
  33. Lemosquet S, Debras E, Balage M, Hocquette JF, Rulquin H, Grizard J. Short-term mild hyperglycemia enhances insulin-stimulated glucose disposal in lactating goats. Am J Physiol Regul Integr Comp Physiol 2002, 282: R464-R474.
  34. Rigout S, Lemosquet S, van EJ, Blum JW, Rulquin H. Duodenal glucose increases glucose fluxes and lactose synthesis in grass silage-fed dairy cows. J Dairy Sci 2002, 85: 595-606.
  35. Rose MT, Obara Y, Itoh F, Hashimoto H, Takahashi Y. Growth hormone does not affect non-insulin-mediated glucose uptake in sheep. Exp Physiol 1997, 82: 749-760.
  36. Rose MT, Itoh F, Matsumoto M, Takahashi Y, Obara Y. Insulin-independent glucose uptake in growth hormone treated dairy cows. J Dairy Res 1998, 65: 423-431.
  37. Coggan AR. Use of stable isotopes to study carbohydrate and fat metabolism at the whole-body level. Proc Nutr Soc 1999, 58: 953-961.
  38. Huntington GB, Prior RL, Britton RA. Glucose and lactate absorption and metabolic interrelationships in lambs switched from low to high concentrate diet. J Nutr 1980, 110: 1904-1913.
  39. Van Houtert MFJ, Nolan JV, Leng RA. Protein, acetate and propionate for roughage-fed lambs. 2. Nutrient kinetics. Anim Prod 1993, 56: 369-378.
  40. Ortigues-Marty I, Vernet J, Majdoub L. Whole body glucose turnover in growing and non-productive adult ruminants: meta-analysis and review. Reprod Nutr Dev 43 (2003) 371-383.
  41. Ford EJH. The effect of diet on glucose utilization by sheep. J Agric Sci 1965, 65: 41-43.
  42. Majdoub L, Vermorel M, Ortigues-Marty I. Grass based diet and barley supplementation: partition of energy-yielding nutrients among splanchnic tissues and hindlimb in finishing lambs. J Anim Sci 2003, 81: 1068-1079.
  43. Brockman RP, Bergman EN, Pollak WL, Brondum J. Studies of glucose production in sheep using (6-3H)glucose and (U-14C)glucose. Can J Physiol Pharmacol 1975, 53: 1186-1189  [PUBMED link].
  44. Balcells J, Seal CJ, Parker DS. Effect of intravenous glucose infusion on metabolism of portal-drained viscera in sheep fed a cereal/straw-based diet. J Anim Sci 1995, 73: 2146-2155.
  45. Wilson S, MacRae JC, Buttery PJ. Comparison of measurements of glucose flux rates in wethers and in pregnant and lactating ewes using 14C and 3H labelled tracers. Res Vet Sci 1981, 30: 205-212  [PUBMED link].
  46. Lapierre H, Bernier JF, Dubreuil P, Reynolds CK, Farmer C, Ouellet DR, Lobley GE. The effect of feed intake level on splanchnic metabolism in growing beef steers. J Anim Sci 2000, 78: 1084-1099.
  47. Peiris H, Elliott R, Norton BW. Supplementary grain and sodium propionate increase the liveweight gain and glucose entry rates of steers given molasses. J Agr Sci 1998, 130: 205-211.
  48. Perry KW, Janes AN, Weekes TE, Parker DS, Armstrong DG. Glucose and L-lactate metabolism in pregnant and in lactating ewes fed barley- or ground maize-based diets. Exp Physiol 1994, 79: 35-46.
  49. Seal CJ, Parker DS, Avery DJ. The effect of forage and forage-concentrate diets on rumen fermentation and metabolism of nutrients by the mesenteric and portal-drained viscera in growing steers. Br J Nutr 1992, 67: 335-370.
  50. Danfaer A, Tetens V, Agergaard N. Review and an experimental study on the physiological and quantitative aspects of gluconeogenesis in lactating ruminants. Comp Biochem Physiol 1995, 111: 201-210.