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Absence of detectable gametic disequilibrium between the t-complex and linked allozyme-encoding loci in house mice

Published online by Cambridge University Press:  14 April 2009

Joseph H. Nadeau
Joseph H. Nadeau
Affiliation:
The Jackson Laboratory, Bar Harbor, ME 04609, U.S.A.
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To determine the extent of gametic disequilibrium between loci linked to the t-complex in house mice, alleles of four allozyme-encoding loci associated with eleven t-complexes recently found in wild mice and sixteen t-complexes maintained in laboratory colonies were identified. The allozyme-encoding loci included in the survey were complement component-3, kidney catalase, glyoxalase-1 and phosphoglycerate kinase-B. In contrast to published surveys showing strong disequilibrium between the H-2 complex, t-complex protein-1 and the t-complex, disequilibrium between the t-complex and linked allozyme-encoding loci was not detected. This result is discussed in terms of several hypotheses concerning the structure of mouse populations and the mechanisms maintaining gametic disequilibrium between the H-2 complex, t-complex protein-1 and the t-complex.

Type
Research Article
Information
Genetics Research , Volume 42 , Issue 3 , December 1983 , pp. 323 - 333
Copyright
Copyright © Cambridge University Press 1983

References

REFERENCES

Artzt, K., Shin, H.-S. & Bennett, D. (1982). Gene mapping within the T/t complex of the mouse. II. Anomalous position of the H-2 complex in t haplotypes. Cell 28, 471476.CrossRefGoogle Scholar
Bennett, D. (1975). The T-locus of the mouse. Cell 6, 441454.CrossRefGoogle Scholar
Bennett, D. (1978). Population genetics of T/t complex mutations. In Origins of Inbred Mice (ed. Morse, H. C.), pp. 615632. New York: Academic Press.CrossRefGoogle Scholar
Berry, R. J. (1981). Population dynamics of the house mouse. Symposium of the Zoological Society of London 47, 395425.Google Scholar
Berry, R. J. & Peters, J. (1981). Allozymic variation in house mouse populations. In Mammalian Population Genetics (ed. Smith, M. and Joule, J.), pp. 242253. Athens: University of Georgia Press.Google Scholar
Brown, A. D. H. (1975). Sample sizes required to detect linkage disequilibrium between two or three loci. Theoretical Population Biology 8, 184201.CrossRefGoogle ScholarPubMed
Duncan, W. R., Wakeland, E. K. & Klein, J. (1979). Heterozygosity of H-2 loci in wild mice. Nature 281, 603605.CrossRefGoogle ScholarPubMed
Dunn, L. C. & Suckling, J. (1956). Studies of genetic variation in wild populations of house mice. I. Analysis of seven alleles at locus. T. Genetics 41, 344352.CrossRefGoogle Scholar
Fisher, R. A. (1949). The Theory of Inbreeding. Edinburgh: Oliver and Boyd.Google Scholar
Geiringer, H. (1944). On the probability theory of linkage in Mendelian heredity. Annuals of Mathematical Statistics 15, 2557.CrossRefGoogle Scholar
Götze, D., Nadeau, J. H., Wakeland, E. K., Berry, R. J., Bonhomme, F., Egorov, I. K., Hjorth, J. P., Hoogstraal, H., Vives, J., Winking, H. & Klein, J. (1980). Histocompatibility-2 system in wild mice. X. Frequencies of H-2 and la antigens in wild mice from Europe and Africa. Journal of Immunology 124, 26752681.CrossRefGoogle Scholar
Green, E. L. & Doolittle, D. P. (1963). Systems of mating used in mammalian genetics. In Methodology in Mammalian Genetics (ed. Burdette, W. J.), pp. 341. San Francisco: Holden-Day.Google Scholar
Hammerberg, C. & Klein, J. (1975 a). Linkage disequilibrium between H-2 and t complexes on Chromosome 17 of the mouse. Nature 258, 296299.CrossRefGoogle Scholar
Hammerberg, C. & Klein, J. (1975 b). Linkage relationships of markers on Chromosome 17 of the house mouse. Genetical Research 26, 203211.CrossRefGoogle ScholarPubMed
Hammerberg, C., Klein, J., Artzt, K. & Bennett, D. (1976). Histocompatibility-2 system in wild mice. II. H-2 haplotypes of t–bearing mice. Transplantation 21, 199212.CrossRefGoogle ScholarPubMed
Hauptfeld, V., Hammerberg, C. & Klein, J. (1976). Histocompatibility-2 system in wild mice. III. Mixed lymphocyte reaction and cell-mediated lymphotoxicity with t–bearing mice. Immunogenetics 3, 489497.CrossRefGoogle Scholar
Jennings, H. S. (1917). The numerical results of diverse systems of breeding, with respect to two pairs of characters, linked or independent, with special relation to the effects of linkage. Genetics 2, 97154.CrossRefGoogle ScholarPubMed
Klein, J., Gotze, D., Nadeau, J. H. & Wakeland, E. K. (1981). Population immunogenetics of murine H-2 and t systems. Symposium of the Zoological Society of London 47, 439453.Google Scholar
Klein, J. & Hammerberg, C. (1977). The control of differentiation by the T complex. Immunological Review 33, 70104.CrossRefGoogle ScholarPubMed
Levinson, J. R. & McDevitt, H. O. (1976). Murine t factors: an association between alleles at t and H-2. Journal of Experimental Medicine 144, 834839.CrossRefGoogle ScholarPubMed
Lyon, M. F. (1981). The t complex and the genetical control of development. Symposium of the Zoological Society of London 47, 455477.Google Scholar
Nadeau, J. H., Wakeland, E. K., Götze, D. & Klein, J. (1981). Population genetics of the H-2 polymorphism in European and North African populations of the house mouse (Mus musculus L.). Genetical Research 37, 1731.CrossRefGoogle ScholarPubMed
Nadeau, J. H., Collins, R. L. & Klein, J. (1982). Organization and evolution of the mammalian genome. I. Polymorphism of H-2 linked loci. Genetics 102, 583598.CrossRefGoogle ScholarPubMed
Robbins, R. B. (1918). Some applications of mathematics to breeding problems. II. Genetics 3, 7392.CrossRefGoogle Scholar
Rudolph, N. & VandeBerg, J. L. (1981). Linkage disequilibrium between the T/t complex and Pgk-2 in wild mice. Journal of Experimental Zoology 217, 455458.CrossRefGoogle Scholar
Shin, H.-S., Stavnezer, J., Artzt, K. & Bennett, D. (1982). Genetic structure and origin of t haplotypes of mice analyzed with H-2 cDNA probes. Cell 29, 969976.CrossRefGoogle ScholarPubMed
Silver, L. M. (1982). Genomic analysis of the H-2 complex region associated with mouse t haplotypes. Cell 29, 961968.CrossRefGoogle ScholarPubMed
Silver, L. M. & Artzt, K. (1981). Recombination suppression of mouse t–haplotypes due to chromatin mismatching. Nature 290, 6870.CrossRefGoogle ScholarPubMed
Silver, L. M., White, M. & Artzt, K. (1980). Evidence for unequal crossing over within the mouse T/t complex. Proceedings of the National Academy of Sciences of the U.S.A. 77, 60776080.CrossRefGoogle ScholarPubMed
Snell, G. D. (1968). The H-2 locus of the mouse: observations and speculations concerning its comparative genetics and its polymorphisms. Folia Biologica 14, 335358.Google Scholar
Sturm, S., Figueroa, F. & Klein, J. (1982). The relationship between t and H-2 complexes in wild mice. I. The H-2 haplotypes of 20 t–bearing strains. Genetical Research 40, 7388.CrossRefGoogle ScholarPubMed
Weinberg, W. (1909). Über Verebungsgestzte beim Menschen. Zeitschrift für Induktive Abstammungs- und Vererbungslehre 1, 277330.Google Scholar
Wright, S. (1921). Systems of mating. Genetics 6, 117178.Google ScholarPubMed