G. Uzu scite author profile

G. Uzu

5Publications

52Citation Statements Received

19Citation Statements Given

How they've been cited

117

How they cite others

Affiliations

Département Santé Animale, Virginia Tech, Physiologie de la Reproduction et des Comportements

Publications

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Effect of dietary lysine level on lipogenesis in broilers

Grisoni¹,

Uzu²,

Larbier³

et al. 1991

Reprod. Nutr. Dev.

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Summary ― From 3-7 weeks of age, male and female broilers were fed ad libitum on 1 of the 8 experimental diets. These diets were isoenergetic (13.6 kJ/kg) and isoproteic (186 g/kg) and provided 7 to 14 g/kg lysine. The growth performances, the abdominal fat proportion and hepatic malic enzyme activity (malate dehydrogenase with decarboxylating EC 1.1.1.40) were measured. All parameters varied when dietary lysine concentration was increased from 7 to 9 or to 11 g/kg. The lysine requirement in the finishing period for minimum abdominal fat proportion was higher than for minimum feed conversion ratio, itseful higher than for maximal growth rate. Malic enzyme activity varied with abdominal fat proportion, and this variation could explain the reduction in fatness. However, an excess of lysine did not amplify the reduction of fat deposit.

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Food intake adjustments of chicks: Short term reactions to deficiencies in lysine, methionine and tryptophan

Picard

Uzu²,

Dunnington

et al. 1993

British Poultry Science

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1. Two experiments were conducted to compare food intake responses of broiler chicks fed diets varying in lysine, methionine, and tryptophan. Diet D was formulated to create simultaneous deficiencies of lysine, methionine, and tryptophan. Diet A matched National Research Council (1984) recommendations for broilers, and diets B and C were, respectively, 2:1 and 1:2 mixes of diets A and D. 2. Short-term food intake can provide information on the sequences of adaptation of chicks to a diet deficient in essential amino acids. 3. Chicks consumed 26% less of diet D than A during the first 24 h posthatch. When chicks fed diet A or D to 7 d of age were then fed one of 4 diets singly, within 24 h intake was lowest for chicks fed diet D. Within 48 h, food intake of diet C was more than that of diet D and less than that of diet A, while for diet B intake was more than of diet D but not different from diet A. 4. In the second experiment, chicks were fed diet A to 8 d and then diets A or D alone or given a choice of diets A and D from 8 to 20 d of age. Within 4 to 8 h, food intake of chicks fed diet D alone decreased markedly followed by partial recovery within 24 h. In a choice setting, consistent preference of Diet A over Diet D was observed within 7 h followed by stabilisation at about 65% diet A to 35% diet D. 5. Chicks fed diet D alone from 8 to 20 d of age, then placed in the same choice situation preferred diet A to D with a delay of less than one h and stabilisation at about 85%. Chicks provided a choice of diets A and D from 8 to 20 d, and then diet D alone reduced their food intake more quickly than those not given a choice initially. 6. Broiler chicks appear to react to amino acid deficiencies within a short period (hours) by adjusting their feed intake and/or selection. The response is influenced by age and prior experience.

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Food intake adjustments of chicks: Short term reactions of genetic stocks to deficiencies in lysine, methionine or tryptophan

Noble

Picard

Dunnington

et al. 1993

British Poultry Science

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1. Growth, food intake, and food preference were measured in two experimental lines (White Rocks and White Leghorns) of chickens fed diets varying in content of lysine, methionine, or tryptophan. Diet A was balanced in all amino acids, while the remaining 6 diets were moderately (approximately 30%) or slightly (approximately 15%) deficient in either lysine, methionine, or tryptophan relative to NRC recommendations for broiler diets. 2. Body weight and food utilisation efficiency of White Leghorns at 10 d of age were not affected by diet, whereas the lower concentrations of lysine and methionine depressed these traits in White Rocks. 3. Tryptophan deficiency reduced food intake of White Leghorns, but not White Rocks. 4. With choice feeding of balanced and deficient diets from day 10 to 16, preferences between the diets were minimal for White Leghorns, whereas for White Rocks there was an almost immediate preference for the balanced diet, followed by lack of preference or preference for the deficient diet. 5. Apparently for some genetic stocks there is rapid adjustment to deficiencies in these amino acids with overconsumption, followed by compensation for preference of the balanced diet. The response, however, will vary depending on the deficient amino acid.

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Five genetic stocks of broilers of different growth rate potential choose the same protein/energy balance

Picard

Siegel

Geraert³

et al. 1997

BSAP Occas. Publ.

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Broiler chickens have been selected for increased growth rate and adapted to consumer demands. A range of commercial products is being developed from slower growing country-type meat chickens (named ‘Label’ in France) as well as from faster growing broilers with a high yield of breast meat. Nutritionists have to satisfy a need for feeding programmes adapted to meet the demands for various end-products. Selection for growth rate has to be shown to change the food intake behaviour of chickens (i.e. Barbato et al., 1980). Emmans (1991) demonstrated that chickens are able to adjust their food choices if the paradigm permits an adequate choice. In a series of experiments (see Picard et al., 1994 for review) the authors concluded that ‘high producing animals are not necessarily those that will react most clearly to an amino acid deficiency by altering their food intake and/or their feeding behavior’.

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Effect of dietary protein level on lipid deposition in broilers during the finishing period

Grisoni¹,

Larbier²,

Uzu³

et al. 1990

Ann. Zootech.

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Summary — Male and female broilers were fed from 3 wk of age with one of 2 experimental diets containing 20 or 23% of crude protein and 3 170 kcal metabolisable energy (ME)/kg. Twenty-five birds per treatment were slaughtered at 5 or 7 wk of age to study the influence of dietary protein concentration on lipid deposition both in abdominal cavity and in the rest of the carcass. Though the higher protein diet did not modify the weight gain, it improved the feed conversion and reduced the fattening of birds. This effect was obtained 2 wk after experimental food distribution. The reduction in fattening was more pronounced in females than in males using abdominal fat ratio as a criterion. On the other hand, the lipid proportion in the rest of the carcass was more reduced in males than in females when birds were fed 23% protein (11.3 versus

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G. Uzu

Effect of dietary lysine level on lipogenesis in broilers

Food intake adjustments of chicks: Short term reactions to deficiencies in lysine, methionine and tryptophan

Food intake adjustments of chicks: Short term reactions of genetic stocks to deficiencies in lysine, methionine or tryptophan

Five genetic stocks of broilers of different growth rate potential choose the same protein/energy balance

Effect of dietary protein level on lipid deposition in broilers during the finishing period

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