R. G. Campbell scite author profile

Twenty-eight commercial hybrid gilts with a high genetic capacity for lean gain were used to determine the relationships between energy intake and tissue deposition and body composition between 20 and 45 kg BW. Four pigs were killed at 20 kg to determine body composition at the beginning of the experiment. The other 24 gilts received one of six intake levels (1.7, 2.2, 2.7, 3.2, and 3.7 times maintenance [M], and ad libitum) ranging from 11.3 to 27.2 MJ of DE/d. At 45 kg BW, the gilts were killed and dissected into carcass and organ fractions. Carcasses of pigs at 2.2 and 3.7 x M were dissected into lean and other carcass parts. Daily gain increased linearly (P < .001) from 371 to 1,075 g/d. Gain/feed increased (P < .01) from 500 to 600 g/kg. Deposition rates of protein and lipid increased linearly (P < .001) from 75 to 172 g/d and from 28 to 193 g/d, respectively. The ratio between lipid and protein deposition increased (P < .001) from .3 to 1.1. The relative organ mass increased (P < .001) with increasing energy intake, whereas the body lean percentage decreased (P < .01) from 53.9% at 2.2 x M to 47.4% at 3.7 x M. In the carcass and organs, protein content decreased (P < .01) and lipid content increased (P < .001) with increasing energy intake. Protein deposition increased with 5.77 g/MJ increase in DE intake, of which only approximately 40% was deposited in the lean tissue.(ABSTRACT TRUNCATED AT 250 WORDS)

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Genetic Engineering of Livestock

Pursel¹,

Pinkert

Miller³

et al. 1989

Science

383

147

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Genetic engineering of livestock is expected to have a major effect on the agricultural industry. However, accurate assessment of the consequences of transgene expression is impossible without multigenerational studies. A systematic study of the beneficial and adverse consequences of long-term elevations in the plasma levels of bovine growth hormone (bGH) was conducted on two lines of transgenic pigs. Two successive generations of pigs expressing the bGH gene showed significant improvements in both daily weight gain and feed efficiency and exhibited changes in carcass composition that included a marked reduction in subcutaneous fat. However, long-term elevation of bGH was generally detrimental to health: the pigs had a high incidence of gastric ulcers, arthritis, cardiomegaly, dermatitis, and renal disease. The ability to produce pigs exhibiting only the beneficial, growth-promoting effects of growth hormone by a transgenic approach may require better control of transgene expression, a different genetic background, or a modified husbandry regimen.

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Genotype and Sex Effects on the Relationship Between Energy Intake and Protein Deposition in Growing Pigs

Campbell¹,

Taverner²

1988

199

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Seventy-two crossbred (Large White X Landrace) pigs were used in a 3 X 7 factorial experiment to investigate the response of two strains of boars (strains A and B) and of castrated male pigs (strain B) to seven levels of intake of a single diet (ranging from 5.3 Mcal digestible energy [DE]/d to ad libitum) between 45 and 90 kg live weight. All aspects of growth performance and body composition were affected to different degrees by both strain and sex. At all levels of energy intake strain A boars grew faster, had a lower feed to gain ratio and contained less fat and more water in the empty body than strain B boars, which in turn exhibited faster live weight gain and more efficient and leaner growth than castrated males. The magnitude of the differences in growth performance between strain A and strain B boars and castrates increased with increased energy intake above 7.88 Mcal DE/d, and these differences were associated with concomitant strain differences in their respective capacity for protein growth and in the relationship between energy intake and protein deposition. For strain A boars the rate of protein deposition increased linearly from 92 to 188 g/d with increased energy intake from 5.3 Mcal DE/d to ad libitum. For strain B boars and castrates the rate of protein deposition increased linearly with increased energy intake up to 7.88 Mcal DE/d, but thereafter it remained constant at 128 and 85 g/d, respectively. For castrates protein deposition was depressed (P less than .01) when the diet was offered ad libitum. Strain A boars had a higher energy requirement for maintenance (3.55 Mcal DE/d) than strain B boars (2.77 Mcal DE/d) or castrates (2.60 Mcal DE/d). Strain A boars also contained less protein and more water in the fat free empty body than the other two pig types.

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Interrelationships between sex and ractopamine on protein and lipid deposition in rapidly growing pigs3

et al. 1993

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Sixty pigs were used to investigate the effects of two levels of dietary ractopamine (RAC; 0 and 20 mg/kg) and three sex types (SEX; boars, gilts, and barrows) on performance over the live weight range 60 to 90 kg. Pigs were housed in individual pens and allowed ad libitum access to a diet containing 3.466 Mcal of DE and 10.7 g of lysine/kg. Control boars exhibited faster and more efficient growth and deposited more protein and less fat than gilts or barrows. The RAC increased ADG by 17 and 21% in gilts and barrows but not in boars. Feed intake was not altered by dietary RAC. Dietary RAC increased the rate of protein deposition by 15, 42, and 41% in boars, gilts, and barrows, respectively. Nevertheless, the daily rate of protein deposition was greatest in RAC-treated boars. The RAC tended to reduce the daily rate of fat deposition by 21% in boars but not in gilts or barrows. Carcass protein content increased by 5% and fat content decreased by 8% in response to RAC. These improvements in carcass composition occurred without compromising meat quality. Results show that RAC is a potent stimulator of protein deposition in finishing pigs. However, increased protein deposition is not necessarily at the expense of fat deposition.

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Effects of body weight and food intake on pleasantness ratings for a sweet stimulus

Thompson¹,

Moskowitz²,

Campbell³

1976

Journal of Applied Physiology

125

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A physiological role for pleasure has been suggested from observations that glucose loads reduced pleasantness ratings for sweet stimuli in normal weight but not in weight-reduced subjects. This hypothesis was reexamined in fasting and food-loaded, lean and obese subjects. Magnitude estimates of sweetness and pleasantness were obtained for seven sucrose concentrations. Indices of obesity including percent overweight, percent body fat, and body mass index were calculated. Pleasantness ratings of fasting subjects either increased up to a moderate concentration and then declined (type I hedonic response) or increased monotonically with concentration (type II hedonic response). Both types of response were found in lean and obese subjects. Within each weight group there appeared a negative correlation between pleasantness response and indices of obesity. Caloric loads reduced hedonic ratings of type II lean and obese subjects, but did not affect pleasantness response of type I lean and obese subjects. These findings indicate the presence of an hedonic monitor biased by body weight and caloric intake. The data suggest a physiological role for pleasure in regulating body weight at different set points in lean and obese subjects.

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R. G. Campbell

Protein and lipid accretion in body components of growing gilts (20 to 45 kilograms) as affected by energy intake

Genetic Engineering of Livestock

Genotype and Sex Effects on the Relationship Between Energy Intake and Protein Deposition in Growing Pigs

Interrelationships between sex and ractopamine on protein and lipid deposition in rapidly growing pigs3

Effects of body weight and food intake on pleasantness ratings for a sweet stimulus

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