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Genetical studies on the skeleton of the mouse XXXI. The Muscular Anatomy of Syndactylism and Oligosyndactylism

Published online by Cambridge University Press:  14 April 2009

K. M. Kadam
Affiliation:
Medical Research Council Experimental Genetics Research Unit, University College London, and Department of Zoology, Central College, Bangalore, India
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1. Changes in muscles and tendons in sm/sm are confined to hands and feet. They are closely correlated with the changes in the osseous skeleton.

2. In Os/+, muscular changes are much more complex and not confined to hands and feet, but include the muscles of the forearms and of the lower legs. Some of the muscular changes, especially on the postaxial side, are not correlated with the changes in the osseous skeleton.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1962

References

REFERENCES

Carter, T.C. (1951). The genetics of luxate mice. I. Morphological abnormalities of heterozygotes and homozygotes. J. Genet. 50, 277299.CrossRefGoogle ScholarPubMed
Danforth, C. H. (1947). Morphology of the feet in polydactyl cats. Amer. J. Anat. 80, 143172.CrossRefGoogle ScholarPubMed
Gates, R. Ruggles (1946). Human Genetics (2 vols.). New York: The Macmillan Company.Google Scholar
Greene, E. C. (1935). Anatomy of the rat. Trans. Amer. phil. Soc. 27, 1370.CrossRefGoogle Scholar
Grüneberg, H. (1953). Genetical studies on the skeleton of the mouse. VI. Danforth's short-tail. J. Genet. 51, 317326.CrossRefGoogle Scholar
Grüneberg, H. (1954). Genetical studies on the skeleton of the mouse. XII. The development of undulated. J. Genet. 52, 441455.CrossRefGoogle Scholar
Grüneberg, H. (1956). Genetical studies on the skeleton of the mouse. XVIII. Three genes for syndactylism. J. Genet. 54, 113145.CrossRefGoogle Scholar
Grüneberg, H. (1960). Genetical studies on the skeleton of the mouse. XXV. The development of syndactylism. Genet. Res. 1, 196213.CrossRefGoogle Scholar
Grüneberg, H. (1961). Genetical studies on the skeleton of the mouse. XXVII. The development of Oligosyndactylism. Genet. Res. 2, 3342.CrossRefGoogle Scholar
Grüneberg, H. (1962). Genetical studies on the skeleton of the mouse. XXXII. The development of shaker with syndactylism. Genet. Res. 3, 157166.CrossRefGoogle Scholar
Hadorn, E. (1961). Developmental Genetics and Lethal Factors. London: Methuen & Co. Ltd.CrossRefGoogle Scholar
Hovelacque, A. (1920). Anatomie et morphogénie d'une anomalie héréditaire des membres abdominaux (absence congénitale du tibia). Bull. Biol., suppl. 3, 1156.Google Scholar
Michelson, A. M., Russell, E. S. & Harman, P. J. (1955). Dystrophia muscularis: a hereditary primary myopathy in the house mouse. Proc. nat. Acad. Sci., Wash. 41, 10791084.CrossRefGoogle ScholarPubMed