A note on the effect of different selection criteria on carcass composition in mice

I. M. Hastings; W. G. Hill

doi:10.1017/S0003356100003949

Abstract

Selection can produce lines of animals which diverge widely for a range of characters, so that the genetic relations among these and other traits can be investigated. Results are reported on chemical analysis of whole body composition of 10-week-old mice from replicated lines selected high or low for either amount of lean, proportion of fat, or food intake corrected for body weight. There were over two-fold differences in proportion of fat in lines so selected for fat, whereas those selected for total lean showed little difference in composition. Lines selected for high food intake were no fatter than those selected for low food intake. It is confirmed that dry matter proportion is an accurate predictor of fat proportion.

References

REFERENCES

Bishop, S. C. and Hill, W. G. 1985. Effects of selection on growth, body composition, and food intake in mice. III. Correlated responses: growth, body composition, food intake and efficiency and catabolism. Genetical Research 46: 57–74.CrossRef Google Scholar PubMed

Blaxter, K. L. 1962. The Energy Metabolism of Ruminants. Hutchinson, London.Google Scholar

Hayes, J. F. and McCarthy, J. C. 1976. The effects of selection at different ages for high and low body weight on the pattern of fat deposition in mice. Genetical Research 27: 389–433.CrossRef Google Scholar PubMed

Hill, W. G. and Bishop, S. C. 1986. Genetic control of growth, carcass composition and food utilization in laboratory animals. Proceedings of the 3rd World Congress on Genetics Applied to Livestock Production, Nebraska, Vol. XI, pp. 355–366.Google Scholar

McCarthy, J. C. 1982. The laboratory mouse as a model for animal breeding: a review of selection of increasing body weight and litter size. Proceedings of the 2nd World Congress on Genetics Applied to Livestock Production, Madrid, Vol. V, pp. 66–83.Google Scholar

Millward, D. J., Garlick, P. J. and Reeds, P. J. 1976. The energy cost of growth. Proceedings of the Nutrition Society 35: 339–349.CrossRef Google Scholar PubMed

Ricard, F. H., Leclerco, B. and Touraille, C. 1983. Selecting broilers for low or high abdominal fat: distribution of carcass fat and quality of meat. British Poultry Science 24: 511–516.CrossRef Google Scholar

Roberts, R. C. 1979. Side effects of selection for growth in laboratory animals. Livestock Production Science 6: 93–104.CrossRef Google Scholar

Rogers, P. and Webb, G. P. 1980. Estimation of body fat in normal and obese mice. British Journal of Nutrition 43: 83–86.CrossRef Google Scholar PubMed

Rook, A. J., Ellis, M., Whittemore, C. T. and Phillips, P. 1987. Relationships between whole-body chemical composition, physically dissected carcass parts and backfat measurements in pigs. Animal Production 44: 263–273.Google Scholar

Sharp, G. L., Hill, W. G. and Robertson, A. 1984. Effects of selection on growth, body composition and food intake in mice. I. Responses in selected traits. Genetical Research 43: 75–92.CrossRef Google Scholar PubMed

Sutherland, T. M., Biondini, P. E., and Ward, G. M. 1974. Selection for growth rate, feed efficiency and body composition in mice. Genetics 78: 525–540.CrossRef Google Scholar PubMed

Webb, A. J. 1986. Genetic growth, composition, appetite and feed utilization: non-ruminants. Proceedings of the 3rd World Congress on Genetics Applied to Livestock Production, Nebraska, Vol XI, pp. 337–344.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Asante, Emmanuel A. Hill, William G. and Bulfield, Grahame 1989. Analysis of lines of mice selected for fat content. 1. Correlated responses in the activities of NADPH-generating enzymes.. Genetical Research, Vol. 54, Issue. 2, p. 155.

Moruppa, S.M. Hill, W.G. and Sinnett-Smith, P.A. 1990. Effect of selection for growth, body composition and food intake in mice: Utilization of increased energy intake by “cafeteria” feeding. Livestock Production Science, Vol. 24, Issue. 3, p. 259.

Moruppa, S. M. 1990. Energy expenditure and locomotor activity in mice selected for food intake adjusted for body weight. Theoretical and Applied Genetics, Vol. 79, Issue. 1, p. 131.

Harrison, Lydia M. and Sinnett-Smith, Patrick A. 1990. Rates of lipogenesis and plasma insulin concentrations in inbred lines of mice differing in fatness. Biochimica et Biophysica Acta (BBA) - Lipids and Lipid Metabolism, Vol. 1046, Issue. 2, p. 202.

Dunn, I. C. Sharp, P. J. and Hocking, P. M. 1990. Effects of interactions between photostimulation, dietary restriction and dietary maize oil dilution on plasma LH and ovarian and oviduct weights in broiler breeder females during rearing. British Poultry Science, Vol. 31, Issue. 2, p. 415.

Hastings, Ian M. and Hill, William G. 1990. Analysis of lines of mice selected for fat content. 2. Correlated responses in the activities of enzymes involved in lipogenesis. Genetical Research, Vol. 55, Issue. 1, p. 55.

Hastings, Ian M. Yang, Jianyi and Hill, William G. 1991. Analysis of lines of mice selected on fat content: 4. Correlated responses in growth and reproduction. Genetical Research, Vol. 58, Issue. 3, p. 253.

Asante, Emmanuel A. Hill, William G. and Bulfield, Grahame 1991. Analysis of lines of mice selected for fat content: 3. Flux through thede novolipid synthesis pathway. Genetical Research, Vol. 58, Issue. 2, p. 123.

Meyer, K. and Hill, W. G. 1991. Mixed model analysis of a selection experiment for food intake in mice. Genetical Research, Vol. 57, Issue. 1, p. 71.

Beniwal, B K Hastings, I M Thompson, R and Hill, W G 1992. Estimation of changes in genetic parameters in selected lines of mice using REML with an animal model. 1. Lean mass. Heredity, Vol. 69, Issue. 4, p. 352.

Sinnett-Smith, Patrick A. and Waddington, David 1992. Size distribution of adipocytes and variation in adipocyte number in lines of mice selected for high or low body fat. Comparative Biochemistry and Physiology Part A: Physiology, Vol. 102, Issue. 3, p. 573.

Beniwal, B K Hastings, I M Thompson, R and Hill, W G 1992. Estimation of changes in genetic parameters in selected lines of mice using REML with an animal model. 2. Body weight, body composition and litter size. Heredity, Vol. 69, Issue. 4, p. 361.

Hastings, Ian M. Bootland, Lorna H. and Hill, William G. 1993. The role of growth hormone in lines of mice divergently selected on body weight. Genetical Research, Vol. 61, Issue. 2, p. 101.

Hastings, Ian M. and Veerkamp, Roel F. 1993. The genetic basis of response in mouse lines divergently selected for body weight or fat content. I. The relative contributions of autosomal and sex-linked genes. Genetical Research, Vol. 62, Issue. 3, p. 169.

Eisen, E. J. 1993. Multitrait restricted and desired gains selection indices designed to change growth and body composition in mice1. Journal of Animal Breeding and Genetics, Vol. 110, Issue. 1-6, p. 13.

Veerkamp, Roel F. Haley, Chris S. Knott, Sara A. and Hastings, Ian M. 1993. The genetic basis of response in mouse lines divergently selected for body weight or fat content. II. The contribution of genes with a large effect. Genetical Research, Vol. 62, Issue. 3, p. 177.

West, D. B. Waguespack, J. York, B. Goudey-Lefevre, J. and Price, R. A. 1994. Genetics of dietary obesity in AKR/JxSWR/J mice: segregation of the trait and identification of a linked locus on Chromosome 4. Mammalian Genome, Vol. 5, Issue. 9, p. 546.

Holmes, Ingrid S. and Hastings, Ian M. 1995. Behavioural changes as a correlated response to selection. Genetical Research, Vol. 66, Issue. 1, p. 27.

Hastings, I. M. Moruppa, S. M. Bünger, L. and Hill, W. G. 1997. Effects of selection on food intake in the adult mouse. Journal of Animal Breeding and Genetics, Vol. 114, Issue. 1-6, p. 419.

Keightley, Peter D Morris, Kenneth H Ishikawa, Akira Falconer, Victoria M and Oliver, Fiona 1998. Test of candidate gene–quantitative trait locus association applied to fatness in mice. Heredity, Vol. 81, Issue. 6, p. 630.

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A note on the effect of different selection criteria on carcass composition in mice

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

A note on the effect of different selection criteria on carcass composition in mice

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