Publisher: Cambridge University Press
E-ISSN: 1475-2662|81|5|389-393
ISSN: 0007-1145
Source: British Journal of Nutrition, Vol.81, Iss.5, 1999-05, pp. : 389-393
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Abstract
Two experiments were carried out on cattle nourished entirely by intragastric infusion, to determine the extent to which glucose or a glucose precursor determines the response to protein infusion in energy-undernourished animals. In order to determine the requirement for glucose in 1-year-old fasting cattle, glucose was infused at increments to supply 0, 1·5, 2·5, 3·5, 4·5, 5·5 and 6·5 g/kg metabolic body weight (W0·75) and the effects on plasma β-hydroxybutyrate and N excretion were measured. At 5·5 g glucose/kg W0·75 plasma β-hydroxybutyrate was reduced to a basal level of 1·65 mmol/l and fasting N excretion reduced from 529 to 280 mg N/kg W0·75. No further reduction was observed with the higher level of 6·5 g glucose/kg W0·75. In the second trial, three steers were used in a 3 × 3 Latin square design and infused with a volatile fatty acid mixture of 65, 27 and 8 mol acetic, propionic and butyric acids respectively/100 mol, either at an estimated maintenance energy level of 450 kJ/kg W0·75 and supplying a calculated glucose equivalent level of 13·0 g/kg W0·75 (M1A), or at 1·5 × maintenance supplying a glucose equivalent of 20 g/kg W0·75 (M1·5A). Another mixture infused at the maintenance energy level contained 49, 43 and 8 mol acetic, propionic and butyric acids respectively/100 mol but with a glucose equivalent of 20 g/kg W0·75 (M1P). Casein was infused at each of these energy treatments to supply 0, 200, 400, 800, 1600 and 2500 mg N/kg W0·75 daily, and N balance and blood metabolites were measured. N retention increased linearly (
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