The effects on litter size of crossing lines of mice inbred without selection

R. C. Roberts

doi:10.1017/S0016672300000227

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

1. The experiment was designed to provide basic information relevant to the utilization of heterosis in animal improvement. The character studied was the size of the first litter in mice.

2. Thirty inbred lines were crossed at random when the inbreeding coefficient reached 0·50 (three full-sib matings). The lines had been inbred without selection except for natural selection operating with lines.

3. The mean litter size of the crossbred mice did not exceed that of the outbred population from which the inbred lines had been derived. This indicates that the increased litter size normally associated with crossbred mice must be ascribed to some form of selection other than within-line natural selection.

4. Estimates were obtained of the variance components associated with general and special combining abilities. As anticipated, these estimates were very small, especially those relating to special combining ability. Before selection between crosses becomes possible, high levels of inbreeding must be achieved.

References

REFERENCES

Bowman, J. C. and Falconer, D. S. (1960). Inbreeding depression and heterosis of litter size in mice. Genet. Res. 1, 262–274.CrossRef Google Scholar

Donald, H. P. (1955). Controlled heterozygosity in livestock. Proc. Roy. Soc. B, 144, No. 915, 192–203.Google Scholar PubMed

Eaton, O. N. (1953). Heterosis in the performance of mice. Genetics, 38, 609–629.CrossRef Google Scholar PubMed

Falconer, D. S. (1955). Patterns of response in selection experiments with mice. Cold Spring Harbor Symp. Quant. Biol. 20, 178–196.CrossRef Google Scholar PubMed

Henderson, C. R. (1953). Estimation of variance and covariance components. Biometries 9, 226–252.CrossRef Google Scholar

Mather, K. (1949). Biometrical Genetics. London: Methuen.Google Scholar

Robertson, A. (1952). The effect of inbreeding on the variation due to recessive genes. Genetics, 37, 189–207.CrossRef Google Scholar PubMed

Crossref Citations

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

Falconer, D. S. and Roberts, R. C. 1960. Effect of inbreeding on ovulation rate and foetal mortality in mice. Genetical Research, Vol. 1, Issue. 3, p. 422.

Bowman, J. C. and Falconer, D. S. 1960. Inbreeding depression and heterosis of litter size in mice. Genetical Research, Vol. 1, Issue. 2, p. 262.

Carter, T. C. and Lyon, Mary F. 1961. An attempt to estimate the induction by X-rays of recessive lethal and visible mutations in mice. Genetical Research, Vol. 2, Issue. 2, p. 296.

Bowman, J. C. 1962. Recurrent selection. II. An experimental study with mice andDrosophila. Genetical Research, Vol. 3, Issue. 3, p. 333.

Hiorth, Gunnar Eilert 1963. Quantitative Genetik. p. 274.

Bateman, Nigel 1966. Ovulation and post-ovulational losses in strains of mice selected from large and small litters. Genetical Research, Vol. 8, Issue. 2, p. 229.

McCarthy, J. C. 1967. The effects of inbreeding on the components of litter size in mice. Genetical Research, Vol. 10, Issue. 1, p. 73.

Mullen, R. J. and Hoornbeek, F. K. 1970. Genetic aspects of fertility and endocrine organ size in rats. Genetical Research, Vol. 16, Issue. 3, p. 251.

Falconer, D. S. 1971. Improvement of litter size in a strain of mice at a selection limit. Genetical Research, Vol. 17, Issue. 3, p. 215.

Eisen, E. J. and Hanrahan, J. P. 1974. GENETIC DRIFT AND INBREEDING DEPRESSION MEASURED FROM CONTROL POPULATIONS OF MICE. Canadian Journal of Genetics and Cytology, Vol. 16, Issue. 1, p. 91.

Deckard, Betty S. Tepper, James M. and Schlesinger, Kurt 1976. Selective breeding for acoustic priming. Behavior Genetics, Vol. 6, Issue. 4, p. 375.

Hetherington, C. M. Humber, D. P. and Clarke, Ann G. 1976. GENETIC AND IMMUNOLOGICAL ASPECTS OF LITTER SIZE IN THE MOUSE. International Journal of Immunogenetics, Vol. 3, Issue. 4, p. 245.

Connor, James L. and Bellucci, Mitchell J. 1979. NATURAL SELECTION RESISTING INBREEDING DEPRESSION IN CAPTIVE WILD HOUSEMICE (MUS MUSCULUS) . Evolution, Vol. 33, Issue. 3, p. 929.

van den NIEUWENHUIZEN, J. BAKKER, H. and BUIS, R. C. 1982. Genetic differences in reproduction and growth rate between two lines of mice selected for litter size. Zeitschrift für Tierzüchtung und Züchtungsbiologie, Vol. 99, Issue. 1-4, p. 292.

Bhuvanakumar, C. K. Roberts, R. C. and Hill, W. G. 1985. Heterosis among lines of mice selected for body weight. Theoretical and Applied Genetics, Vol. 71, Issue. 1, p. 52.

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.

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.

Bixler, Ray H. 1992. Why Littermates Don't: The Avoidance of Inbreeding Depression. Annual Review of Sex Research, Vol. 3, Issue. 1, p. 291.

Valberg Nordrum, Nina M. 1994. Effect of Inbreeding on Reproductive Performance in Blue Fox (Alopex lagopus) Vixens. Acta Agriculturae Scandinavica, Section A - Animal Science, Vol. 44, Issue. 4, p. 214.

Hohenboken, W.D. Wagner, C.R. and Blodgett, D.J. 1998. Inbreeding and reproduction in mice divergently selected for response to a dietary toxin. Theriogenology, Vol. 49, Issue. 7, p. 1397.

Download full list

Article contents

The effects on litter size of crossing lines of mice inbred without selection

Extract

References

REFERENCES

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests