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XO mice

Published online by Cambridge University Press:  14 April 2009

Bruce M. Cattanach
Affiliation:
M.R.C. Mutagenesis Research Unit, Institute of Animal Genetics, Edinburgh, 9.
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The inactive-X hypothesis (Lyon, 1961) states that in the normal female mouse only one of the two X chromosomes is genetically active in each cell of the body other than the germ-cells, and that the choice of which X is to be inactivated occurs at an early stage of embryogenesis, and is at random in each cell. The descendants of these cells then abide by the decision so that females are mosaics for two lines of cells and may show a mosaic phenotype if they are heterozygous for a sex-linked gene. One requisite for the validity of this hypothesis is that only one X is necessary for the development of a normal female mouse, and evidence substantiating this supposition is the apparent normality of XO mice (Welshons & Russell, 1959; Cattanach, 1961a, b). On the other hand it has been suggested that XO mice are not fully viable (Russell, Russell & Gower, 1959), but no data on the comparative viability and growth of XO female mice have yet been reported. In the present communication data of this nature, collected in the process of setting up an XO stock, are presented and support the hypothesis that only one X chromosome is necessary for normal female mouse development.

Type
Short Notes
Copyright
Copyright © Cambridge University Press 1962

References

REFERENCES

Cattanach, B. M. (1961 a). XXY mice. Genet. Res. 2, 156158.CrossRefGoogle Scholar
Cattanach, B. M. (1961 b). A chemically-induced variegated-type position effect in the mouse. Z. indukt. Vererb Abstamm.- u. Lehre, 92, 165182.Google ScholarPubMed
Lyon, M. F. (1961). Gene action in the X-chromosome of the mouse. Nature, Lond., 190, 372373.CrossRefGoogle ScholarPubMed
Russell, W. L., Russell, L. B., & Gower, J. (1959). Exceptional inheritance of a sex-linked gene in the mouse explained on the basis that the X/O sex chromosome constitution is female. Proc. nat. Acad. Sci., Wash., 45, 554560.CrossRefGoogle ScholarPubMed
Welshons, W. J. & Russell, L. B. (1959). The Y-chromosome as the bearer of male determining factors in the mouse. Proc. nat. Acad. Sci., Wash., 45, 560566.CrossRefGoogle ScholarPubMed